Pellet Making Machine in Argentina

Good question. We get this from guys who’ve been burned before by manufacturers who fudge the numbers—claim a machine does 5 tons per hour but won’t say at what moisture or with what die size. Here’s the actual data from the nameplates and from what we’ve measured on installations in Argentina. These are real numbers, not brochure numbers.

Feed pellet mills (SZLH series)
These are what most people think of when they picture a pellet making machine in Argentina. They run grain-based formulas best—corn, sorghum, wheat, soybean meal. The conditioner adds steam and molasses if you need it.

The SZLH420 animal feed granulator is the one we sell most often to feedlots around Santa Fe. 10-12 tons per hour matches their grinding and mixing capacity. Bigger than that and you’re waiting on the mixer.

Wood pellet mills (MZLH series)
For sawdust, wood shavings, bark, and other forestry residues. The difference from animal feed mill plants is the forced feeder—wood doesn’t flow into the die like grain does. You need that extra auger pushing it in.

In Misiones, the MZLH520 wood pellet extruder machine is popular with sawmills—1.5-2 tons per hour from their dry planer shavings. The MZLH768 is for the big cooperatives running 24/5.

Straw and grass pellet mills (CZLH series)
Alfalfa, wheat straw, corn stalks, pasture grasses. Fibrous material needs more compression than wood or grain. The die is thicker, the rollers are heavier. Outputs run lower than feed mills of the same motor size because the material’s harder to push through.

The CZLH520 is what most alfalfa exporters in Buenos Aires province start with. 2.8-3 tons per hour fits a single shift, fills a container every couple days.

Cat litter pellet mills (MSZLH series)
Stainless steel contact surfaces—important for corrosive materials like okara (tofu waste) or paper pulp. Same basic mechanics as feed mills, but built to handle moisture without rusting out in a year.

The MSZLH350 is the one we sold to the tofu cat litter plant outside Buenos Aires. 5-6 tons per hour keeps up with their dehydrator.

Fertilizer granulators (FZLH series)
For composted manure, dried sludge, organic waste. The dies are stainless or high-chrome because fertilizer eats regular steel. Anti-bridge feeders are standard—compost doesn’t flow.

The FZLH420 organic fertilizer granulator machine is the sweet spot for medium feedlots with manure to process. 6-8 tons per hour clears what 5,000 cattle produce in a day.

These are the main types we ship, but they’re not the only ones. We build pellet making machines in Argentina for specific materials—rice husk mills with extra-hard dies, high-moisture lines with special conditioners, even small portable units for farmers who want to test the market before going big. If your material isn’t in the tables, send us a sample. We’ll tell you which machine runs it best and what the real output will be.

You’ve probably noticed prices vary a lot depending who you ask. A machine quoted at $8,000 might be $25,000 from someone else for what looks like the same specs. The difference isn’t usually markup—it’s what’s included, what kind of steel they used, and whether the motor will run a week without burning up. Here’s what we’re actually shipping to Argentina and what it costs.

Feed pellet machine prices (SZLH series)
These are for grain-based feeds—poultry, swine, cattle rations. Prices include the main motor, feeder, conditioner, and basic control panel. No extras like variable-frequency drives or stainless steel conditioners.

If you’re looking for a small animal feed pellet machine price in Argentina, the SZLH250 is usually where people start. $6,500-8,500 gets you a machine that’ll do 1-2 tons per hour—enough for a medium farm or a small feed mill.

Wood pellet machine prices (MZLH series)
For sawdust, wood chips, bark, and other forestry residues. These include the anti-bridging feeder and force feeder—standard on wood machines because the material doesn’t flow into the die on its own.

The small wood pellet machine price in Argentina for the MZLH320 runs about $13,500-16,500. It’s not fast—200-300 kilos an hour—but it’s what furniture shops in Misiones use to test the market before going bigger.

Grass and straw pellet machine prices (CZLH series)
Alfalfa, wheat straw, corn stalks, pasture grasses. These have heavier dies and rollers than feed mills. Prices include anti-bridging feeder, conditioner, force feeder, and control cabinet.

The small pellet machine price in Argentina for grass starts around $7,000-9,000 with the CZLH250. That’s what farmers in San Luis use to test whether sheep will eat pelleted native grass before they invest in a bigger line.

What changes these numbers

The prices above are FOB Qingdao—loaded on the ship, not delivered to your site. By the time a pellet making machine in Argentina lands in Buenos Aires or Rosario, you’ve added:

• Ocean freight: $2,000-8,000 depending on size
• Argentine import duties: around 14-18% typically
• Port fees and customs clearance: $1,000-3,000
• Local trucking: depends how far from the port

Also, these are base prices for standard machines. Stainless steel contact parts add cost. Variable-frequency drives for precise speed control add cost. Special dies for unusual pellet sizes add cost. If your material’s corrosive or abrasive, you’ll want upgrades that change the final number.

These are the main types we quote, but not everything we build. If you don’t see your application—maybe you’re processing shrimp feed, or making biochar pellets, or running RDF from municipal waste—the cost of that pellet making machine in Argentina will be different.

Tell us what you’re making, what your raw material looks like, and how many tons you need per hour. Then we’ll give you a number that actually fits your project.

Depends what kind of fish you’re feeding and whether you want pellets that sink or float. Trout in Patagonia eat floating pellets—they’re surface feeders. Most native species in ponds will take sinking pellets just fine. The equipment for each is completely different. Here’s what we’re shipping and what it costs.

Sinking fish feed pellet machines (ring die)

These are basically the same as livestock feed pellet mills, just with different die specifications. They compress mash into dense pellets that sink. No cooking, no expansion—just pressure and heat from friction. Good for most freshwater species, catfish, tilapia, bottom feeders.

A single ring die sinking fish feed pellet making machine in Argentina runs from about $6,500 for the smallest setup up to around $90,000 for the big industrial units. The SZLH250 we mentioned in the feed mill section works fine for sinking fish feed—same machine, different die. Most fish farmers in Argentina start with something in the $15,000-35,000 range depending on how many tons they need per hour.

The fish feed pelleting machine price in Argentina for sinking pellets is straightforward because it’s mature technology. The machines are simple, dies last a long time if you’re not running abrasive ingredients, and maintenance is something a local mechanic can handle.

Floating fish feed extruders

This is where it gets more expensive—and more complicated. Floating feed needs to be cooked under pressure so the starch gelatinizes and expands when it hits the air. That requires an extruder, not just a pellet mill.

Floating fish feed extruder machine prices in Argentina range from about $5,000 for a tiny single-screw unit up to $300,000 for a fully automated twin-screw line with everything included. Most commercial operations fall somewhere in the middle.

Twin-screw extruders (for larger operations)

These are what you want if you’re running a serious fish farm or planning to sell feed to others. Twin-screw gives you better control over expansion, density, and sink rate. You can make floating pellets in the morning, switch dies, and make sinking pellets in the afternoon.

The fish feed pellet making machine in Argentina for most trout operations in Neuquén and Río Negro is the SPHS75x2 or SPHS120x2. $50,000-120,000 range usually, depending on automation and conditioning options. These machines also run pet food—cat and dog kibble—which is why some customers buy them even if they’re starting with fish.

Single-screw extruders (for smaller operations)

Simpler machines, lower cost, less control over expansion. Two types: dry and wet.

Dry single-screw extruders don’t use steam injection—just friction and a little water added at the inlet. Simpler, cheaper, but harder on the screw and barrel. Good for 200-1000 kilos per hour.

Wet single-screw extruders add steam in a conditioner ahead of the extruder. Better starch cooking, better pellet quality, less wear on the screw. Small-scale but serious.

A floating fish feed extruder machine price in Argentina for these single-screw units runs from about $12,000 for the smallest dry extruder up to $45,000 for a DSP-135B with all the trimmings. Good for a farm that wants to make its own feed but doesn’t need 5 tons per hour.

What changes the price

The fish feed pellet machine in Argentina you end up with depends on a few things:

• Scale: 200 kilos per hour or 10 tons per hour? Changes everything.
• Automation: Manual controls or PLC with remote monitoring? Adds $10-50k.
• Materials: Stainless steel where feed touches it? Adds cost but lasts.
• Formulation: High-fat diets need different screw configurations.
• Dies: Floating pellets need different die geometry than sinking.

The cost of fish feed pellet making machine in Argentina also depends on what else you need. An extruder by itself won’t make feed—you need a grinder, mixer, dryer, cooler, maybe a coating drum for adding oils after extrusion. A complete line is a different number than a single machine.

These are the main types we sell for fish feed, but not the only ones. If you’re farming something unusual—shrimp, pacú, surubí—the equipment might need adjustments. Tell us what you’re raising, how many tons per week, and whether you want floating or sinking. Then we’ll give you a price on the right fish feed extruder for sale in Argentina that actually fits your operation.

For 1.5 tons per hour of dog food kibble, a single-screw extruder with proper conditioning will handle the job well. The DSP series wet extruders are what we typically recommend for this capacity range. The DSP-90B with 37kW main motor would give you about 0.5-0.6 tons per hour, so for 1.5 tons you’d want to look at the DSP-135B with 75kW, which produces 0.8-1.0 tons per hour. You might need two units or consider stepping up to a twin-screw if you want more capacity in a single machine.

The key difference between single and twin-screw extrusion is control. Twin-screw gives you better handling of high-fat formulations and more consistent expansion across recipe changes. For a startup in Córdoba making standard dog food formulas, a well-configured single-screw with steam conditioning will produce quality kibble. We’ve supplied several DSP series extruders to pet food companies in Argentina, and they’re running reliably.

That said, if your business plan includes premium lines with high meat inclusions or if you want flexibility to make cat food later, the SPHS75x2 twin-screw extruder at 55kW would give you 0.5-1.0 tons per hour with much better control. The price difference is significant—a single-screw wet extruder runs about $25,000-45,000 depending on configuration, while a twin-screw starts around $50,000-60,000.

When you’re investing in a dog food pellet extruder in Argentina, remember that the extruder is just one part of the line. You’ll also need a grinder, mixer, dryer, cooler, and coating system. We design complete pet food production lines, and we can help you scale from 1.5 tons up to whatever you need. The right pellet making machine in Argentina for your situation depends on your target formulations and growth plans. Send us your recipe and we’ll do a proper engineering recommendation.

RDF production from municipal waste is a completely different process from biomass or feed pelleting. You’re dealing with heterogeneous materials—plastics, paper, textiles, sometimes rubber and light metals—and each requires different handling. A standard pellet mill won’t survive this application without significant modifications.

For a cement plant in San Juan accepting RDF, they’ll want consistent calorific value and particle size. The typical process starts with primary shredding using a twin-shaft shredder to reduce waste to 100-200mm. Then magnetic separation removes ferrous metals. Then secondary shredding or fine grinding gets material to 20-30mm. Finally, densification through a dedicated RDF pellet press or briquette press.

We’ve supplied RDF lines to cement plants in other countries, and the key challenge is material variation. What comes in Monday isn’t what comes in Tuesday. Your RDF fuel pellet making machine in Argentina needs heavy-duty construction, oversized motors, and easy access for clearing jams. The dies must be wear-resistant—typically stainless steel or chromium-plated—because plastics and abrasives will eat standard dies quickly.

For a cement kiln, they typically want fuel with 4,000-5,000 kcal/kg and consistent quality. The line would include: primary shredder, magnetic separator, secondary grinder, optional dryer if the waste is wet, pellet mill or briquette press, and cooler. Capacity depends on your waste volume—anywhere from 2 to 15 tons per hour.

We don’t keep RDF lines in stock because every municipal waste stream is different. We engineer each system based on waste analysis. If you send us samples of your typical waste composition, we can design a pellet making machine in Argentina specifically for your materials. We’ve done similar projects in Brazil and Chile, so we understand South American waste characteristics.

For 2 tons per hour of poultry feed, the SZLH320 is your sweet spot. It runs 3-4 tons per hour with a 37kW motor, so you’d have some room to grow. The SZLH250 at 22kW would do 1-1.5 tons—close to your target but running at full capacity most of the time, which means more wear and less flexibility.

The SZLH320 with feeder, conditioner, and basic control panel has an FOB price range of $15,000-18,000. To that, add ocean freight to Buenos Aires—about $2,500-3,500 depending on container size—then import duties at roughly 14-18%, port fees, and trucking from Buenos Aires to Neuquén. All in, delivered to your site, you’re looking at $22,000-26,000 depending on the final exchange rates and freight quotes at time of shipment.

This poultry feed pellet making machine for sale in Río Negro would come with a 320mm ring die, producing 2-12mm pellets. For layers, you’ll typically run 3mm or 4mm depending on bird age. The conditioner lets you add steam and moisture, which improves pellet quality and reduces fines.

We ship directly from our factory in China to Argentina—no local distributor marking up prices. That means you’re dealing with the manufacturer for parts and support. For a 2 tons per hour operation, the SZLH320 is proven equipment. We’ve installed several in Argentina, including one for a layer operation in Entre Ríos that’s been running five years without major issues.

If you want to see the full spec sheet and get a current delivered price to Neuquén, let us know your exact location and we’ll calculate the land cost. Every pellet making machine in Argentina we ship includes installation drawings and remote support during setup.

For 8-10 tons per hour of cattle feed, the SZLH420 is your machine. It runs 10-12 tons per hour with a 110kW motor, which puts you right in the efficient operating range. The SZLH508 at 160kW would do 15-16 tons—more capacity than you need and higher operating cost per ton.

The SZLH420 has a 420mm ring die and includes a feeder and conditioner as standard. For cattle feed with high grain content, you’ll want the conditioner to add steam and moisture, which gelatinizes the starch and makes harder pellets that cattle can’t sort. Feedlots around Santa Fe use this exact configuration.

FOB price for the SZLH420 is $28,000-33,000. By the time it lands in Buenos Aires and gets trucked to Entre Ríos, you’re looking at $38,000-45,000 depending on freight and duties at time of shipment. That’s for the pellet mill alone. A complete cattle feed production line would also need a hammer mill for grinding corn and sorghum, a horizontal mixer for blending protein meal and premixes, a cooler for the hot pellets, and a screener to remove fines.

We’ve supplied several SZLH420 units to cooperatives in Argentina. The key advantage for a cooperative is shared ownership—multiple farmers contributing grain and sharing the feed produced. With 8-10 tons per hour, you could run one shift and produce 60-80 tons per day, enough for several thousand cattle.

The pellet making machine in Argentina we’d recommend for your cooperative is the SZLH420 with a variable-frequency drive on the feeder, which lets you adjust feed rate precisely. We can also supply the complete line design, including layout drawings and foundation specs. Send us your typical ration formula and we’ll size the supporting equipment accordingly.

For premium cat kibble, you absolutely need a pet food extruder machine, not a standard pellet press. Cat food requires cooking and expansion to achieve the right texture and digestibility. A regular ring die pellet mill will compress the ingredients into dense pellets that might look like cat food, but they won’t have the proper expansion, and cats may not digest them well.

Cat kibble is made through extrusion—either single or twin-screw depending on your formulation complexity. For 1 ton per hour, you have two options. The DSP-90B wet single-screw extruder with 37kW motor produces 0.5-0.6 tons per hour, so you’d need two units or look at the DSP-135B at 75kW for 0.8-1.0 tons. The twin-screw SPHS75x2 at 55kW would give you 0.5-1.0 tons with better control over expansion and density.

The price range for a cat food pellet machine for sale in Argentina varies significantly. A single-screw wet extruder runs $25,000-45,000 depending on capacity and automation. A twin-screw starts around $50,000-60,000 for the SPHS75x2. To that, add freight, duties, and local delivery—probably another 30-40% depending on current rates.

But the extruder is just the beginning. A complete cat food line includes a grinder for your dry ingredients, a mixer, the extruder, a dryer to reduce moisture from 20-25% down to 8-10%, a cooler, and a coating drum for adding fats and palatants. The dryer is especially important—without proper drying, the kibble will mold in the bag.

We’ve supplied complete pet food lines to customers in Argentina, including one in Buenos Aires province making super-premium cat food. The key lesson from those projects is that the dryer size must match the extruder output. Many first-time buyers undersize the dryer and end up with a bottleneck.

If you’re serious about making quality cat kibble, we can design a complete system around your 1 ton per hour target. The pellet making machine in Argentina for this application—actually an extruder—needs to be matched to your recipes. Send us your formulations and we’ll recommend the right configuration.

Fuel pellet economics depend on three things: your raw material cost, your energy cost for drying, and the price you can get for finished pellets. Sawdust from a furniture factory is often dry—planer shavings can be 10-15% moisture, which is ideal. If it’s green sawdust from sawing, moisture might be 40-50%, and drying becomes your biggest expense.

For an industrial fuel pellet production line for sale in Argentina to be viable, you need enough volume to justify the equipment investment. A small line doing 1-2 tons per hour might cost $150,000-250,000 complete including dryer, pellet mill, cooler, and bagging. At 2 tons per hour running one shift, that’s 16 tons per day, about 4,000 tons per year. If you can sell pellets for $150-200 per ton, gross revenue is $600,000-800,000 annually. After operating costs, payback could be 2-4 years depending on your raw material cost.

Greenhouses in Córdoba use significant heating, especially for vegetables and flowers. If you have several greenhouses within transport distance, you might have a ready market. Some greenhouse operations are switching from natural gas to biomass because of price volatility.

The equipment configuration depends on your sawdust moisture. If it’s dry from the furniture factory, you might not need a dryer—just a hammer mill to ensure consistent particle size, then the pellet mill. The MZLH520 with 132kW motor would give you 1.5-2.0 tons per hour on wood. FOB price for that machine is $40,000-49,000. Add a hammer mill, cooler, and bagging system, and you’re looking at $100,000-150,000 for the complete line FOB.

If you need a dryer because the sawdust is wet, add $50,000-100,000 depending on capacity. Rotary drum dryers are expensive but necessary for high-moisture material.

We’ve installed several biomass fuel pellet plants in Argentina, including one in Misiones processing eucalyptus sawdust for a furniture cooperative. The pellet making machine in Argentina for fuel production needs to be robust—wood is abrasive and wears dies faster than feed. We recommend stainless steel dies and regular roller maintenance schedules.

Send us your sawdust volume, moisture content, and target market price, and we’ll do a proper feasibility study for your industrial fuel pellet production line.

The SZLH508 with 160kW motor will give you 15-16 tons per hour on grain-based cattle feed, which matches your current production perfectly. Running at 15 tons, you’re not pushing the machine to its limit, which means longer die life and lower maintenance.

Current FOB price range for the SZLH508 is $38,000-46,000. To that, add ocean freight to Buenos Aires—approximately $3,000-4,000 for a 20-foot container—plus Argentine import duties at 14-18%, port handling fees, and trucking to Rafaela. Total landed cost will be in the $50,000-65,000 range depending on exchange rates and freight quotes at time of shipment.

Lead time is typically 45-60 days from order to FOB shipment. That includes manufacturing, testing, and documentation. Ocean freight from China to Buenos Aires adds another 35-45 days depending on the shipping line and route. So from order to arrival in Argentina, figure 80-100 days. Then customs clearance can take 1-3 weeks depending on how your paperwork is prepared. We provide all export documentation and can recommend customs brokers in Buenos Aires to smooth the process.

The SZLH508 animal feed pellet press comes with a feeder, conditioner, and basic control panel. For a feedlot operation, we recommend adding a variable-frequency drive on the feeder for precise control of feed rate. Also consider a metal detector before the pellet mill—magnets are standard, but a detector with automatic reject saves dies from tramp metal.

We’ve supplied several SZLH series machines to feedlots in Santa Fe and Córdoba. The Rafaela area has some of the most efficient cattle feeding operations in Argentina, and we understand the requirements—high grain content, consistent pellet quality, and reliability for 20-hour days.

When you’re ready to move forward, we’ll need your power specifications. Most industrial operations in Argentina run 380V three-phase, which is standard for our motors. We can also supply 415V or 440V if needed. The pellet making machine in Argentina we ship will be configured for your local electrical system.

For a mixed farm with sheep, pigs, and cattle, flexibility is key. Each species needs different pellet sizes and formulations—sheep can handle coarser pellets, pigs need finer grinding and often smaller pellets, cattle might get larger pellets or cubes. A single line can handle all of these if configured correctly.

For 3-4 tons per hour total, the SZLH350 with 55kW motor is a good choice. It runs 5-6 tons per hour, so you’d have capacity to grow and could run different formulations in batches without pushing the machine to its limit. The 350mm ring die accepts quick-change dies, so you can switch between 3mm pellets for pigs, 4mm for sheep, and 6mm for cattle in about 20-30 minutes with two people.

A complete small animal feed pellet production line in Argentina for your farm would include:

• A hammer mill for grinding grain and forage—the water-drop style with 55-75kW motor
• A horizontal ribbon mixer for blending—1.5 to 2 ton batch size to match the pellet mill’s hourly rate
• The SZLH350 pellet mill with variable-frequency drive on the feeder
• A counter-flow cooler to bring pellet temperature down
• A vibratory screener to remove fines

FOB price for this complete line would be in the $90,000-120,000 range depending on automation level. Landed in Buenos Aires and trucked to La Pampa, figure $120,000-160,000 all in.

The key to running multiple species is good batching and scheduling. You might run pig feed in the morning, sheep feed after lunch, and cattle feed the next day. Between batches, you’ll need to clean out the mixer and conditioners to avoid cross-contamination, especially if you use medications.

We’ve designed similar flexible lines for mixed farms in Argentina, including one in San Luis that runs sheep pellets in winter and cattle feed in summer. The pellet making machine in Argentina for this application needs good support for die changes and easy access for cleaning. The SZLH series has swing-away doors on the conditioner and a hinged cover on the pellet mill that makes maintenance straightforward.

Send us your typical formulations and target pellet sizes for each species, and we’ll do a complete layout showing equipment positions and flow.

Coal fines can absolutely be pelleted, and many industrial operations do exactly that to capture value from waste. The resulting product is often sold as industrial fuel or, if the ash content is very high, as a blending component for cement kilns or power plants.

The key questions are: what’s the particle size of the fines, what’s the moisture content, and what’s the ash percentage? Coal with high ash might still be usable if the calorific value is above 4,000-5,000 kcal/kg. Below that, it becomes difficult to sell.

For pelleting coal fines, you need a heavy-duty pellet mill with forced feeding because coal doesn’t flow like biomass. The MZLH series with anti-bridging feeder and force feeder works well—the same machine we use for wood, but with different die specifications. Coal is abrasive, so you’ll want chromium-steel dies and rollers, and plan on more frequent maintenance than with biomass.

A coal waste pellet machine in Argentina for this application would need:

• A crusher or grinder if the fines are too coarse—typically to 3-5mm particle size
• A mixer for adding binder if needed—some coal fines need bentonite or starch to hold together
• The coal pellet making machine with forced feeding
• A cooler (coal pellets come out hot)
• Screening to remove fines for recycle

Capacity depends on your waste volume. If you have 5 tons per day of fines, a small MZLH320 at 22kW might suffice at 0.2-0.3 tons per hour—run 20 hours and process 4-6 tons. If you have 20 tons per day, you’d need something larger like the MZLH420 at 90kW for 1-1.2 tons per hour.

Price range for a coal pellet line varies widely. A small setup might cost $50,000-80,000 FOB. A larger industrial line could be $200,000-400,000 depending on automation and material handling.

We haven’t yet supplied a coal waste pellet machine in Argentina specifically, but we’ve done similar projects in other countries with mining waste and petroleum coke. The engineering principles are the same—match the equipment to the material characteristics. Send us a sample of your fines for analysis, and we’ll tell you if they’re suitable for pelleting and what equipment would work.

The pellet making machine in Argentina for coal waste needs to be robust. We can design it to handle your specific ash content and particle size.

Shrimp feed requires floating or slowly sinking pellets that stay intact in water long enough for shrimp to find and consume them. The pellets need good water stability—they shouldn’t disintegrate within minutes. This requires proper extrusion cooking and often a binder like wheat flour or special additives.

For 1.5 tons per hour of 2mm shrimp feed, you’re looking at a twin-screw extruder. Single-screw can work for shrimp feed, but twin-screw gives you better control over density and water stability, which is critical for shrimp. The SPHS75x2 with 55kW motor produces 0.5-1.0 tons per hour, so you’d need the SPHS120x2 at 90kW for 1.5-2.0 tons per hour.

The shrimp feed pellet extruder for your Chubut operation would include:

• A fine-grind hammer mill to reduce ingredients to 0.5-0.8mm—shrimp are small and need fine particles
• A ribbon mixer for blending
• The twin-screw extruder with precise temperature control zones
• A dryer to bring moisture from 20-25% down to 8-10%
• A vacuum coater for adding oils and attractants after drying
• A cooler and screener

Automation level depends on your labor situation. In Chubut, if skilled operators are hard to find, more automation makes sense. A PLC-controlled system with recipe management and remote monitoring adds $30,000-50,000 to the line cost but reduces operator error and gives you consistent quality. For a startup, semi-automated with manual controls might be sufficient, saving initial capital.

Price range for a complete 1.5 tons per hour shrimp feed line: $250,000-400,000 FOB depending on automation and material choices (stainless steel vs. carbon steel). Landed in Argentina, figure $350,000-550,000 all in.

We’ve supplied shrimp feed lines to farms in Ecuador and Brazil, so we understand South American shrimp production. The key lesson from those projects is that the dryer must be sized correctly—undersize it and you create a bottleneck. Also, the die design for 2mm pellets requires precision machining to ensure consistent pellet length and minimal fines.

The shrimp feed pellet extruder for sale in Argentina that we’d recommend is the SPHS120x2 with a variable-frequency drive on the feeder for precise control. We can include a metal detector before the extruder to protect the dies—shrimp feed often includes fishmeal that can contain bone fragments.

Send us your target formulation and we’ll do a complete process design for your Chubut farm. We’ve helped customers in similar locations set up reliable feed production, and we can do the same for you.

For 3-4 tons per hour of floating trout feed, you need twin-screw extrusion. Single-screw with conditioning can produce floating pellets at smaller capacities, but at this volume, twin-screw gives you the control and consistency you need.

Trout are surface feeders and need pellets that float reliably. They also require high protein levels—typically 40-45%—and often include fishmeal, which can be variable in quality. Twin-screw extrusion handles these variations better and lets you adjust expansion to achieve the right buoyancy.

The SPHS120x2 with 90kW motor produces 1.5-2.0 tons per hour, so for 3-4 tons you’d need either two units or the larger SPHS150x2 at 200kW for 5-6 tons per hour. The SPHS150x2 would give you room to grow and let you run at 3-4 tons comfortably without pushing the machine.

A complete trout feed line for Neuquén would include:

• Fine-grind hammer mill for reducing grains and protein meals to 0.8-1.0mm
• Ribbon mixer with liquid addition capability for oils
• Twin-screw extruder with multiple temperature control zones
• Dryer (belt or vertical) to reduce moisture
• Vacuum coater for top-dressing oils after drying
• Counter-flow cooler
• Vibratory screener
• Automatic bagging system

The dryer is critical for floating feed. If pellets leave the extruder at 22-24% moisture and you need 8-10% for storage, you’re removing a lot of water. Undersize the dryer and you’ll be stacking wet pellets that mold.

Price range for a 3-4 tons per hour trout feed line: $500,000-800,000 FOB depending on automation and materials (stainless steel contact parts add cost but last longer). Landed in Neuquén, figure $700,000-1,100,000 all in.

We’ve installed several fish feed lines in Argentina, including one in Neuquén for a trout farm that started at 1 ton and expanded to 4 tons. The key lesson from that project was planning for expansion from day one—we laid out the line so they could add a second extruder later without rebuilding the whole plant.

The fish feed pellet making machine in Argentina for your operation needs to be reliable—trout farms can’t stop feeding. We build our extruders with heavy-duty components and stock critical spares for quick shipment. Even though we don’t have a local distributor, we can get parts to Neuquén in 5-7 days by air if needed.

Send us your target formulation and production schedule, and we’ll design a line that matches your growth plans.

Biochar is gaining traction globally as a soil amendment and carbon sequestration tool, and Argentina is starting to see interest, particularly in areas with degraded soils. Salta, with its agricultural production and some soil quality challenges, could be a good market.

The challenge with biochar is that it’s dusty and difficult to handle in its raw form. Pelleting solves that problem—dense, uniform pellets that can be spread with standard fertilizer equipment. Biochar pellets also have the advantage of slow release; the carbon stays in the soil longer.

The market in Argentina is still emerging, but we’re seeing inquiries from:

• Organic farmers looking to improve soil structure
• Vineyards in Mendoza interested in water retention
• Research institutions studying carbon sequestration
• Companies offering carbon credits

A biochar pellet making machine for sale in Argentina would typically be a modified biomass pellet mill. Biochar is abrasive and can be hydrophobic, so it often needs a binder—starch, molasses, or bentonite—to hold together. The FZLH series fertilizer granulators work well because they’re built for abrasive materials and have forced feeding.

For a small operation in Salta processing maybe 1-2 tons per hour of biochar, the FZLH350 with 37kW motor would give you 3-5 tons per hour on fertilizer, so plenty of capacity. FOB price around $25,000-35,000 for the pellet mill alone. A complete line including grinder, mixer for binder addition, pellet mill, cooler, and bagging would be $80,000-150,000 depending on automation.

Is it too early? Maybe for large-scale commercial production. But for a pioneering operation that can educate farmers and build demand, it could be a good opportunity. We’ve seen similar markets develop in other countries—first the innovators, then the early adopters, then the mainstream.

If you’re considering this, start small. Prove the market with a few tons, then expand. The pellet making machine in Argentina for biochar needs to be flexible enough to run other materials if the biochar market develops slowly. The FZLH series can also run organic fertilizers, so you could start with composted manure while building biochar demand.

Send us a sample of your biochar and we’ll test it in our lab to determine the best binder and die configuration.

For floating tilapia feed, you need an extruder. A ring die pellet mill will only produce sinking pellets—dense, non-expanded. Tilapia can be trained to eat sinking feed, but floating feed gives you better control over feeding behavior and lets you see if the fish are eating.

The cost difference is significant. A ring die pellet mill for sinking feed in this capacity range—say the SZLH420 at 10-12 tons per hour, which is more than you need—runs $28,000-33,000 FOB. But that machine won’t give you floating pellets.

For floating feed at 2-3 tons per hour, you need an extruder. The SPHS120x2 with 90kW motor produces 1.5-2.0 tons per hour, so for 2-3 tons you might need two units or the larger SPHS150x2 at 200kW for 5-6 tons. The SPHS150x2 FOB price is $120,000-180,000 depending on configuration. Plus you need a dryer, which the ring die line doesn’t require because pellets from a ring die are already at 12-14% moisture. Extruded pellets come out at 22-25% moisture and must be dried.

So a complete floating fish feed production line with extruder and dryer is roughly 3-5 times the cost of a sinking feed line with ring die. For 2-3 tons per hour of floating feed, budget $400,000-700,000 FOB for the complete line including grinder, mixer, extruder, dryer, cooler, and coating system. Landed in San Juan, figure $550,000-950,000 all in.

The fish feed pellet making machine for sale in San Juan that we’d recommend depends on your market. If your tilapia will be sold locally and you can train them to take sinking feed, the ring die option saves significant capital. But if you’re targeting premium markets or want the flexibility to expand into other species later, the extruder is the better long-term investment.

We’ve supplied both types in Argentina. The trout farms in Neuquén use extruders because trout demand floating feed. Some tilapia operations in northern provinces use sinking feed successfully. It’s really about your production goals and market.

Send us your business plan and we’ll help you evaluate the economics of both approaches. The right pellet making machine in Argentina for your tilapia farm depends on your specific situation.

Sorry to hear about your equipment troubles. Reliable feed production is critical for shrimp farms—if feed quality varies, shrimp growth suffers and mortality can increase.

For a shrimp feed pellet mill, you need equipment designed for the specific demands of aquafeed: fine grinding, precise conditioning, and gentle handling to preserve water stability. The FZLH series fertilizer granulators are sometimes misapplied to shrimp feed, but they’re not designed for the protein and oil content of aquafeed.

For shrimp feed, we recommend the SZLH series feed pellet mills with modifications for marine ingredients. The SZLH420 with 110kW motor would give you 10-12 tons per hour on standard feed, so plenty of capacity. For shrimp, you’d run smaller dies—2mm or 2.5mm—which reduces throughput to maybe 6-8 tons per hour depending on formulation.

But if you want floating or slowly sinking shrimp feed, you need extrusion. The SPHS120x2 twin-screw extruder is what we supply to shrimp farms in Ecuador and Brazil. It gives you control over buoyancy and water stability.

Lead time on a new pellet mill or extruder is 45-60 days for manufacturing, plus 35-45 days ocean freight to Buenos Aires, then trucking to Chubut. Total about 3-4 months from order to arrival.

Support: Since we don’t have a local distributor, we support customers directly from our factory. For routine questions, email and WhatsApp work well—we have engineers available during your working hours. For emergencies, we can ship parts by air (5-7 days) and provide video guidance for installation and troubleshooting. For major issues, we can send a technician, but travel time and costs apply.

The key to avoiding the troubles you had with your first machine is proper sizing and configuration for shrimp feed. Many local suppliers sell general-purpose equipment that isn’t optimized for aquafeed. We’ll work with you to understand your specific formulations and production requirements before recommending a machine.

A shrimp feed pellet mill for sale in Argentina from us comes with complete documentation, installation drawings, and remote startup support. We can also connect you with other shrimp farmers in the region who use our equipment for reference.

Tell us more about your operation—current production, target expansion, and the problems you’ve had—and we’ll recommend a reliable solution. The pellet making machine in Argentina for your second line should be built to last, and ours are.

Making the leap from contract manufacturing to your own production is a big step, but it gives you complete control over quality, formulations, and margins. For 5-6 tons per hour of premium pet food covering both dog and cat formulas, you need extrusion technology that offers flexibility.

Dog and cat foods require different processing parameters. Cat food typically needs higher fat content and different texture profiles, while dog food formulas vary widely from puppy to senior formulations. A twin-screw extruder gives you the versatility to handle both without compromising quality.

For this capacity, the SPHS150x2 with 200kW motor produces 5-6 tons per hour, which puts you right in the sweet spot. You’re not pushing the machine to its limit, which means better consistency and longer component life. The 150mm twin-screw configuration gives you precise control over residence time, temperature profiles, and shear rates—all critical for premium pet food.

A complete premium pet feed pellet machine for sale in Argentina at this scale includes:

• A fine-grind hammer mill system capable of reducing grains and proteins to 0.8-1.0mm consistently. We’d recommend the SFSP series with 90-110kW motors and screens matched to your formulations.
• An automated batching and mixing system with micro-ingredient scales. Premium pet food often includes vitamins, minerals, and palatants in small quantities that need precise addition. The mixer should be 2-3 ton capacity to match the extruder’s hourly output.
• The SPHS150x2 twin-screw extruder with multiple temperature control zones and variable screw speed. This lets you adjust expansion for different recipes.
• A multi-pass belt dryer sized to handle 5-6 tons per hour of finished kibble. The dryer is critical—extruded pellets leave at 22-25% moisture and need to reach 8-10% for storage. Undersize this and you create a bottleneck.
• A vacuum coating system for adding fats and palatants after drying. This ensures even coating without damaging the kibble structure.
• A counter-flow cooler and vibratory screener to remove fines.
• An automated bagging line with check-weigher and metal detector.

The price range for this level of line is substantial but justified by the control and quality you gain. Complete FOB package including all equipment, control systems, and documentation runs $1.2-1.8 million depending on automation level and material choices (stainless steel contact parts add cost but are worth it for pet food). Landed in Rosario with freight, duties, and installation supervision, figure $1.6-2.4 million all in.

We’ve installed several pet food lines in Argentina, including one for a Buenos Aires company that started with a single line and has since expanded to three. The key lesson from those projects is that recipe development support matters as much as the hardware. Our engineers work with you during startup to dial in the extruder settings for your specific formulas, and we provide training for your operators on recipe management.

For a Rosario operation, you’re in a good location—access to grains, reasonable transport to major markets, and skilled labor available. The premium pet feed market in Argentina is growing as consumers trade up from basic kibble to better nutrition. Having your own production lets you capture that margin.

One thing to consider: if you plan to run both dog and cat formulas, schedule them in campaigns. Cleanout between cat and dog runs is essential to avoid cross-contamination, especially if you use different palatants or medications. We can design your line with quick-clean features to minimize downtime.

The pellet making machine in Argentina for your upgrade—actually a complete extrusion system—needs to be backed by good process knowledge. We provide that. Send us your target formulations and production schedule, and we’ll do a complete layout and budget for your Rosario plant.

For 3-4 tons per hour of floating trout feed, twin-screw extrusion is the right answer. Single-screw with conditioning can produce floating pellets at smaller capacities—up to about 1-1.5 tons per hour—but at this volume, twin-screw gives you the control and consistency that trout demand.

Trout are discerning eaters. They want pellets that float consistently, have the right texture, and don’t disintegrate before they’re consumed. They also require high protein levels—typically 40-45%—and often include fishmeal, which can vary in quality. Twin-screw extrusion handles these variations better and lets you adjust expansion precisely.

Machine sizing

For 3-4 tons per hour, the SPHS150x2 with 200kW motor is your best option. It produces 5-6 tons per hour on standard aquafeed formulations, so running at 3-4 tons gives you plenty of reserve capacity and extends component life. The 150mm twin-screw design provides excellent mixing and cooking, with adjustable screw profiles for different formulations.

If budget is a constraint, you could run two SPHS120x2 units at 90kW each, each doing 1.5-2.0 tons per hour. This gives you redundancy—if one machine needs maintenance, you still have half production. But capital cost is higher for two machines than one larger unit, and you need more floor space.

Complete line requirements

A trout feed line at this capacity needs:

• Grinding: Fine-grind hammer mill with 90-110kW motor, capable of reducing grains and protein meals to 0.8-1.0mm. The SFSP series with water-drop design works well.
• Batching and mixing: Automated system with 2-3 ton mixer, micro-ingredient scales for vitamins and minerals, and liquid addition for oils.
• Extrusion: SPHS150x2 twin-screw with multiple temperature control zones, variable screw speed, and automatic control system. The extruder should have a die face cutter with adjustable speed for consistent pellet length.
• Drying: Multi-pass belt dryer sized for 3-4 tons per hour of finished product. This is critical—extruded pellets leave at 22-25% moisture and need to reach 8-10%. Undersize the dryer and you create a bottleneck that stops the whole line.
• Coating: Vacuum coater for adding oils after drying. Trout feed often includes 15-20% oil, and vacuum coating ensures even absorption without damaging pellets.
• Cooling and screening: Counter-flow cooler and vibratory screener to remove fines.
• Bagging: Automated system with check-weigher, or bulk loading if you’re feeding on-site.

Price range

For a complete 3-4 tons per hour trout feed line with twin-screw extrusion, budget:

• FOB price: $600,000-900,000 depending on automation level and material choices (stainless steel contact parts add cost but are worth it for aquafeed)
• Landed in Neuquén with freight, duties, and installation supervision: $800,000-1,200,000 all in

This is a significant investment, but compared to buying feed commercially, the payback can be 3-5 years depending on your volume and local feed prices.

Experience in Argentina

We’ve installed several fish feed lines in Argentina, including one for a trout farm in Neuquén that started at 1 ton per hour and has since expanded to 4 tons. The key lesson from that project was planning for expansion from day one—we laid out the line so they could add a second extruder later without rebuilding the whole plant.

The fish feed pellet making machine in Argentina for your operation needs to be reliable—trout farms can’t stop feeding. We build our extruders with heavy-duty components and stock critical spares for quick shipment. Even though we don’t have a local distributor, we can get parts to Neuquén in 5-7 days by air if needed.

Single-screw consideration

Just to be thorough—could you do this with single-screw? Technically, yes, but you’d need a very large single-screw machine running at its limit, and consistency would suffer. For 3-4 tons per hour of quality trout feed, twin-screw is the industry standard for good reason.

Send us your target formulation and production schedule, and we’ll design a line that matches your growth plans. We can also connect you with the Neuquén customer we mentioned for a reference visit if that would help.

Rabbit feed has specific requirements. Rabbits need high-fiber pellets for digestive health, typically 15-20% fiber, which means your formulation includes significant forage material like alfalfa or grass hay. This fibrous content affects pellet mill selection.

For 3 tons per hour of rabbit feed, the CZLH520 is your best choice. Let me explain why.

Why the CZLH series for rabbit feed

Rabbit feed is different from poultry or swine feed because of the fiber content. Standard rabbit pellet making machine (SZLH series) are optimized for grain-based formulations with low fiber. When you run high-fiber material through them, die life suffers and production rates drop.

The CZLH series is specifically designed for fibrous materials—grass, alfalfa, straw. It has:

• Thicker dies to handle higher compression ratios
• Larger relief angles on die holes to prevent plugging
• Heavy-duty gearboxes rated for the higher torque required
• Anti-bridging feeders because fibrous material doesn’t flow well

Sizing for 3 tons per hour

The CZLH520 with 132kW motor produces 2.8-3.0 tons per hour on fibrous material, which puts you right at your target. Running at full capacity means you’ll need to be diligent about maintenance—dies will wear faster than if you had reserve capacity—but it’s a proven configuration.

If you want some room to grow, the CZLH678 with 185kW motor produces 4-5 tons per hour. This gives you 30-40% reserve capacity, which extends die life and lets you increase production later without buying new equipment.

Complete line requirements

A rabbit feed line at 3 tons per hour needs:

• Bale breaker: If you’re using baled alfalfa or hay, you need a bale breaker to fluff it before grinding. Round bales or square bales—we have configurations for both.
• Hammer mill: For fibrous material, you need a hammer mill with heavy-duty hammers and screens sized for your target particle size. Rabbit feed typically needs 2-4mm particle size depending on age.
• Mixer: Horizontal ribbon mixer with 1.5-2 ton capacity. For rabbit feed, you might add molasses or other liquids, so liquid addition capability is useful.
• Pellet mill: CZLH520 with anti-bridging feeder and force feeder. The force feeder is essential for fibrous material—it won’t flow into the die on its own.
• Cooler: Counter-flow cooler sized for 3 tons per hour output.
• Screener: Vibratory screener to remove fines. The fines can be recycled back to the pellet mill.
• Bagging: Manual or automated depending on your labor situation.

Price range

For the CZLH520 pellet mill alone, FOB price: $46,000-56,000. A complete line with bale breaker, hammer mill, mixer, cooler, screener, and bagging system: $150,000-250,000 FOB depending on automation level.

Landed in Córdoba with freight, duties, and installation: $200,000-350,000 all in.

Why not the smaller machine you saw online

The small rabbit feed pellet machine you saw online—probably something like a flat die or small ring die unit—might be rated for 300-500 kg per hour. Those machines are fine for backyard operations or small farms with a few hundred rabbits. For a commercial operation needing 3 tons per hour, they’d require 6-10 machines running simultaneously, which is impractical for labor and maintenance.

Rabbit feed considerations

Rabbit feed pellets should be:

• 4-5mm diameter typically
• Hard enough to withstand handling but not so hard rabbits reject them
• Consistent in size to prevent selective feeding

The CZLH520 with proper die selection produces excellent rabbit feed. We’ve supplied several for rabbit operations in Argentina, including one in Córdoba that’s been running five years on alfalfa-based formulations.

Alternative approach

If your rabbit operation is near alfalfa producers, you might consider making your own forage pellets and blending with concentrates. Some rabbit farmers run two lines—one for alfalfa pellets, one for concentrate—and mix on-site. This gives flexibility but requires more equipment.

The rabbit feed pellet machine in Argentina that we recommend for your Córdoba operation is the CZLH520 with stainless steel conditioner and forced feeder. Send us your typical formulation and we’ll confirm the configuration and provide a firm quote.

A farrow-to-finish operation needs flexibility. Piglets need different nutrition than growers, and finishers need different formulations than sows. Quick die change lets you switch between pellet sizes efficiently without long downtime.

For 8 tons per hour total across multiple formulations, the SZLH420 with 110kW motor is your machine. It produces 10-12 tons per hour on standard feed, so running at 8 tons gives you reserve capacity and room to grow. The 420mm ring die is large enough for good production rates but manageable for die changes.

Quick die change capability

The SZLH420 pig feed pellet machine can be configured with:

• Quick-clamp die cover instead of bolted
• Die lifting tool for easy removal
• Roller adjustment that doesn’t require shims
• Swing-away conditioner for access

With these features, two experienced operators can change a die in 20-30 minutes. For a farrow-to-finish operation, you might run:

• Pre-starter pellets (2-3mm) in the morning
• Starter pellets (3-4mm) after lunch
• Grower pellets (4-5mm) the next day
• Sow pellets (5-6mm) on another day

Scheduling similar pellet sizes together minimizes die changes.

Complete line requirements

A pig feed mill at 8 tons per hour needs:

• Grinding: Hammer mill with 90-110kW motor for corn and sorghum. For pig feed, particle size matters—finer for young pigs, coarser for growers. A hammer mill with variable screen selection gives you flexibility.
• Mixing: Horizontal ribbon mixer with 2-3 ton capacity. For pig feed, liquid addition capability is useful for adding molasses or oils.
• Pellet mill: SZLH420 with quick-die-change package, variable-frequency drive on feeder, and metal detector protection.
• Cooling: Counter-flow cooler sized for 8 tons per hour.
• Screening: Vibratory screener with two decks—top deck removes overs, bottom deck removes fines. Fines recycle back to the pellet mill.
• Bagging or bulk loading: Depending on whether you feed on-site or sell to neighbors.

Formulation considerations

Pig feed formulations vary significantly by age:

• Pre-starter: 20-22% protein, fine grind, small pellets (2-3mm)
• Starter: 18-20% protein, medium grind, small pellets (3-4mm)
• Grower: 16-18% protein, coarser grind, medium pellets (4-5mm)
• Finisher: 14-16% protein, coarser grind, larger pellets (5-6mm)
• Sow: 13-15% protein with higher fiber, larger pellets (5-6mm)

Your pellet mill needs to handle all these without excessive fines or poor quality. The SZLH420 with good conditioning handles the range well.

Price range

For the SZLH420 pellet mill with quick-die-change package: FOB $32,000-38,000. Complete line with hammer mill, mixer, cooler, screener, and bagging system: $180,000-280,000 FOB depending on automation level.

Landed in Santa Fe with freight, duties, and installation: $240,000-380,000 all in.

Why Santa Fe is ideal

Santa Fe is pig country—excellent grain access, good infrastructure, and experienced labor. Many of our customers in the region run similar operations. The key to success is matching the line to your production schedule. If you’re farrow-to-finish, you need the flexibility to make different feeds as your pigs grow.

Storage considerations

With multiple formulations, you need storage for finished pellets. Bins for 3-5 days of each formulation let you run longer campaigns between die changes. For 8 tons per hour, that means 200-400 tons of storage depending on how often you change formulations.

Alternative approach

Some farrow-to-finish operations run two smaller lines—one for starter sizes, one for grower/finisher sizes. This eliminates die changes but doubles equipment cost. For 8 tons per hour, two SZLH350 units at 5-6 tons each would give you 10-12 tons total capacity and let you run different sizes simultaneously. Capital cost is higher but operational flexibility is better.

The pig feed pellet press in Argentina for your operation needs to be reliable and flexible. The SZLH420 with quick-die-change gives you both. Send us your production schedule and formulations, and we’ll design a line that matches your needs.

For 4-5 tons per hour of floating fish feed, the SPHS120x2 at 90kW is undersized—it produces 1.5-2.0 tons per hour. You’d need two units or the larger SPHS150x2 at 200kW for 5-6 tons per hour.

Let me give you current price ranges for both options.

SPHS120x2 (90kW)

• Output: 1.5-2.0 tons per hour
• FOB price: $85,000-110,000 depending on configuration (stainless steel contact parts, automation level, conditioning options)
• For 4-5 tons per hour, you’d need three units, which is inefficient in terms of floor space and labor

SPHS150x2 (200kW)

• Output: 5-6 tons per hour
• FOB price: $150,000-200,000 depending on configuration
• This gives you one machine running at 80-90% capacity, which is efficient

Complete line considerations

An extruder alone won’t make feed. For 4-5 tons per hour of floating fish feed, your complete line needs:

• Grinding: Fine-grind hammer mill with 110kW motor, capable of 0.8-1.0mm particle size. Aquafeed needs fine grinding for water stability. FOB $25,000-35,000.
• Batching and mixing: Automated system with 2-3 ton mixer, micro-ingredient scales for vitamins, and liquid addition. FOB $40,000-70,000 depending on automation.
• Extruder: SPHS150x2 as above.
• Dryer: Belt dryer sized for 4-5 tons per hour output. This is a major cost item—$120,000-200,000 FOB depending on configuration (gas-fired, steam, or thermal fluid).
• Coating: Vacuum coater for oil addition after drying. FOB $30,000-50,000.
• Cooling and screening: Counter-flow cooler and screener. FOB $20,000-35,000.
• Bagging or bulk loading: Automated bagging line with check-weigher. FOB $30,000-60,000.

Total FOB package: $400,000-650,000 depending on automation level and material choices.

Landed cost in Buenos Aires province

Add ocean freight: $8,000-15,000 depending on container count
Import duties: 14-18% of CIF value
Port fees and customs clearance: $3,000-6,000
Trucking to your site: $2,000-5,000 depending on distance from Buenos Aires
Installation supervision: $15,000-30,000 for 2-4 weeks on-site

Total landed and installed: $550,000-900,000 all in.

Why the price range is wide

The variation depends on:

• Automation: PLC with recipe management vs. manual controls adds $30,000-80,000
• Materials: Stainless steel where feed contacts (recommended for aquafeed) vs. carbon steel adds 20-30%
• Die configurations: Multiple dies for different pellet sizes add cost
• Spare parts kit: Recommended to include with order to avoid delays later

Current market conditions

Prices have increased about 15-20% over the past two years due to raw material and shipping cost increases. Lead times are stabilizing after pandemic disruptions—currently 45-60 days manufacturing, 35-45 days shipping.

Why expand with us

Since your aquafeed business in Buenos Aires province is expanding, you clearly know what works. The fact that you’re looking for another extruder suggests your current equipment may be limiting you. Our SPHS series extruders are built for:

• 24/7 operation with heavy-duty components
• Precise temperature control for consistent expansion
• Quick-change dies for different pellet sizes
• Easy maintenance with accessible design

We can also integrate the new extruder with your existing line if you want to expand capacity rather than replace equipment.

Financing options

For established businesses, we can work with you on payment terms—typically 30% deposit, 70% against shipping documents. Letters of credit are standard, but we can discuss other arrangements for repeat customers.

The aquafeed pellet extruder for sale in Argentina that we supply comes with complete documentation and remote support. Send us your current production details and expansion plans, and we’ll provide a firm quote with all options itemized.

A 15 tons per hour wood pellet processing plant for ENplus certification is a significant investment but one that can generate excellent returns given the export market demand. Misiones, with its abundant eucalyptus and pine, is ideally positioned for this.

Equipment requirements for ENplus certification

ENplus certification requires:

• Consistent pellet quality (durability, dimensions, fines)
• Traceability from raw material to finished product
• Specific limits on ash, moisture, and additives
• Regular testing and documentation

Your line needs to be designed for this level of quality control.

Complete line components for 15 tons per hour

• Raw material reception and storage: Truck dump or receiving pit with capacity for 2-3 days of operation. For 15 tons per hour running 20 hours per day, that’s 300 tons per day, so storage for 600-900 tons of raw material.
• Screening: Raw material screening to remove oversize and contaminants. FOB $30,000-50,000.
• Grinding: Hammer mills for size reduction. For wood, you need 3-5mm particle size before pelleting. For 15 tons per hour, you’ll need two or three large hammer mills with 250-315kW motors each. FOB $150,000-250,000 for the grinding system.
• Drying: This is the biggest cost item. Sawmill waste can be 45-55% moisture. For ENplus pellets, you need 10-12% moisture before pelleting. A rotary drum dryer with biomass burner sized for 15 tons per hour output (which means 20-25 tons per hour wet feed rate) is a major investment. FOB $400,000-700,000 depending on configuration and heat source.
• Pellet mills: For 15 tons per hour, you have options:
  • Four MZLH768 units at 250kW each, each doing 3-4 tons per hour. Total FOB $300,000-350,000.Three MZLH678 units at 185kW each, each doing 2.5-3 tons per hour. Total FOB $200,000-250,000.Or a combination approach with some redundancy.
  The MZLH768 wood granulator machine with 250kW motor is proven for wood pellets and gives you good production rates.
• Cooling: Counter-flow coolers sized for 15 tons per hour total output. FOB $80,000-120,000.
• Screening: Vibratory screeners to remove fines before packaging. FOB $30,000-50,000.
• Bagging or bulk loading: For export, you need both options. Bulk loading for containers, bagging for smaller shipments. Automated bagging line with palletizer adds $150,000-250,000.
• Dust collection: Complete system throughout the plant. FOB $80,000-150,000.
• Control system: Centralized PLC with monitoring and reporting for ENplus traceability. FOB $80,000-150,000.

Total FOB price range: $1.5-2.5 million depending on equipment choices, automation level, and whether you need buildings, electrical installation, etc.

Landed cost in Misiones

Add ocean freight: $30,000-50,000 for multiple containers
Import duties: 14-18% of CIF value
Port fees and customs: $10,000-20,000
Trucking to Misiones: $5,000-10,000
Installation supervision: $50,000-100,000 for 2-3 months on-site
Civil works and building: This varies widely—$500,000-1,500,000 depending on existing infrastructure

Total project cost: $2.5-4.5 million depending on site conditions and building requirements.

Why Misiones is ideal

Misiones has:

• Abundant pine and eucalyptus from planted forests
• Existing sawmill infrastructure
• Skilled labor familiar with wood processing
• Export routes through Buenos Aires

Several of our customers in the region have successfully established pellet plants. The key is securing consistent raw material supply—sawmill waste can vary, so contracts with multiple sawmills help.

ENplus certification process

We can help you design for ENplus, but certification itself is done by third-party auditors. The key requirements:

• Consistent raw material quality
• Documented processes
• Regular testing
• Traceability systems

Our control systems can generate the reports needed for certification.

Payback considerations

With European pellet prices currently $200-300 per ton depending on quality and contract terms, 15 tons per hour running 6,000 hours per year (250 days × 24 hours) produces 90,000 tons annually. At $250 per ton average, gross revenue is $22.5 million. Operating costs including wood, energy, labor, and maintenance might be $150-180 per ton, leaving $70-100 per ton gross margin. Payback in 3-5 years is realistic.

The wood pellet making machine in Argentina for your Misiones operation needs to be built for continuous operation. Our MZLH series machines are used in pellet plants worldwide and are proven for this application. Send us your raw material analysis and site details, and we’ll provide a comprehensive proposal.

For 2 tons per hour of dry planer shavings, the MZLH520 with 132kW motor is your machine. It produces 1.5-2.0 tons per hour on wood, so running at 2 tons puts you at the top end of its range. That’s acceptable if your shavings are consistently dry and clean, but you’ll need to be diligent about maintenance.

Why the MZLH520

The MZLH series wood pelletizer machine is designed specifically for wood and biomass:

• Anti-bridging feeder because wood doesn’t flow like grain
• Force feeder to push material into the die
• Heavy-duty gearbox for the higher torque wood requires
• Chrome stainless steel dies for abrasion resistance

The MZLH520 with 132kW motor gives you:

• Die diameter: 520mm
• Production: 1.5-2.0 tons per hour on wood at 10-15% moisture
• Pellet size: 4-12mm (you’d likely run 6mm or 8mm for fuel)

If you want reserve capacity

The MZLH678 with 185kW motor produces 2.5-3.0 tons per hour, giving you 25-30% reserve capacity. This extends die life and lets you handle variations in material density or moisture without dropping below 2 tons. The additional cost might be worth it for reliability.

Complete line considerations

A pellet mill alone won’t make fuel pellets. For 2 tons per hour from planer shavings, you likely need:

• Screening: To remove any oversize or contaminants. Planer shavings are usually clean, but a simple screen protects the pellet mill.
• Hammer mill: If your shavings are already the right size (3-5mm), you might not need grinding. But if there are large pieces, a hammer mill ensures consistent particle size.
• Pellet mill: MZLH520 as above.
• Cooler: Counter-flow cooler sized for 2 tons per hour.
• Screener: To remove fines before bagging or bulk loading.
• Bagging or bulk system: Depending on how you sell.

Price range

MZLH520 wood pellet press alone: FOB $40,000-49,000
Complete line with hammer mill, cooler, screener, and bagging: FOB $90,000-140,000 depending on automation

Landed in Posadas with freight, duties, and installation: $120,000-190,000 all in.

Why dry planer shavings are ideal

Planer shavings from a furniture factory are often 10-15% moisture—perfect for pelleting without drying. This saves significant capital and operating cost. The key is consistent supply and clean material (no glue, no laminates).

Fuel pellet market in Misiones

With your location in Posadas, you have several potential markets:

• Local industrial boilers
• Greenhouses in the region
• Residential heating in nearby towns
• Export through Buenos Aires if you can produce ENplus quality

Given that you’re a furniture factory, you might also use the pellets yourself for space heating or process heat, offsetting energy costs.

Maintenance expectations

Running at 2 tons per hour on the MZLH520 means you’re at about 90-100% of rated capacity. Expect:

• Die life: 800-1,200 hours depending on wood species and cleanliness
• Roller life: 400-600 hours
• Bearing inspections every 500 hours

With proper maintenance, the machine will run reliably for years.

Alternative: Two smaller units

If you’re concerned about running at maximum capacity, you could run two MZLH420 units at 90kW each, each doing 1.0-1.2 tons per hour. This gives you redundancy and lets you run at 80% capacity each. Capital cost is higher (two machines instead of one) but operational flexibility is better.

The sawdust pellet mill for sale in Argentina that we recommend for your Posadas factory is the MZLH520 with forced feeder and anti-bridging system. Send us a sample of your shavings and we’ll confirm the configuration and provide a firm quote.

For 8-10 tons per hour of wood pellets from chips, you need a complete wood pellet manufacturing plant with drying capacity. Green wood chips from plantations are typically 45-55% moisture, which must be reduced to 10-12% before pelleting.

Equipment requirements

• Raw material handling: Chip receiving system with capacity for 2-3 days of operation. For 10 tons per hour finished pellets, you need about 20-25 tons per hour of wet chips input. Storage for 500-1,000 tons of chips.
• Drying: This is your biggest investment. A rotary drum dryer with biomass burner sized for 20-25 tons per hour wet feed, reducing moisture from 50% to 10-12%. FOB $500,000-800,000 depending on configuration (single-pass vs. triple-pass, heat source options).
• Grinding: After drying, chips need grinding to 3-5mm particle size. For 10 tons per hour, you’ll need two or three hammer mills with 200-250kW motors each. FOB $150,000-250,000.
• Pellet mills: For 10 tons per hour, you have options:
  • Three MZLH678 units at 185kW each, each doing 2.5-3.0 tons per hour. Total FOB $200,000-250,000.
  • Two MZLH768 units at 250kW each, each doing 3-4 tons per hour. Total FOB $160,000-200,000.
  • The MZLH768 with 250kW motor is proven for wood pellets and gives you good production rates.
• Cooling: Counter-flow coolers sized for 10 tons per hour total. FOB $60,000-100,000.
• Screening: Vibratory screeners to remove fines. FOB $30,000-50,000.
• Bagging or bulk loading: For 10 tons per hour, you need efficient loading. Bulk loading for containers is typical, with bagging for specialty markets. FOB $100,000-200,000.
• Dust collection: Complete system throughout. FOB $60,000-120,000.
• Control system: Centralized PLC for automation and monitoring. FOB $60,000-120,000.

Total FOB price range: $1.2-2.0 million depending on equipment choices and automation level.

Landed cost in Corrientes

Add ocean freight: $25,000-45,000
Import duties: 14-18% of CIF value
Port fees and customs: $8,000-15,000
Trucking to Corrientes: $3,000-6,000
Installation supervision: $40,000-80,000 for 2-3 months on-site
Civil works and building: $400,000-1,200,000 depending on existing infrastructure

Total project cost: $1.8-3.5 million depending on site conditions.

Why Corrientes works

Corrientes has:

• Planted forests of eucalyptus and pine
• Existing forestry infrastructure
• Good transport routes to Buenos Aires for export
• Growing local biomass market

Several pellet plants operate in the region, so there’s experienced labor available.

Wood species considerations

Eucalyptus and pine have different pelleting characteristics:

• Eucalyptus: Denser, higher calorific value, more abrasive (wears dies faster)
• Pine: Softer, easier to pellet, lower density

If you’re processing both, you might need different die configurations or accept that die life will vary. The MZLH series handles both well.

Fuel source for dryer

Your dryer needs heat—typically from a biomass burner. You can use some of your chips or sawdust as fuel. For 10 tons per hour output, the dryer will consume 1-2 tons per hour of fuel depending on moisture. This is a significant operating cost but unavoidable.

Market options

With 8-10 tons per hour, you’re looking at:

• Export market (ENplus certification recommended)
• Industrial users in Argentina (cement plants, power plants)
• Local heating market

Export typically offers better prices but requires consistent quality and certification.

The wood chips pellet machine in Argentina for your Corrientes operation needs to be a complete system, not just a pellet mill. We’ve designed and supplied several such lines and can provide references from similar projects. Send us your site details and raw material analysis, and we’ll prepare a comprehensive proposal.

Forestry waste varies widely in moisture depending on source and storage. For a 5-6 tons per hour line, we need to know your specific situation to design appropriately.

Typical moisture ranges

• Fresh bark: 50-65% moisture—very wet, needs significant drying
• Fresh branches: 45-55% moisture—also wet
• Sawmill sawdust: 40-50% if from green logs
• Planer shavings: 10-15% if from kiln-dried lumber—ideal
• Stored material: Can be 30-40% if covered, 50%+ if exposed

Design approach

We design for your worst-case moisture. If you process fresh material sometimes, the dryer must handle that. If you can store material to air-dry before processing, you can reduce dryer size.

For 5-6 tons per hour output with typical Misiones forestry waste (45-55% moisture)

• Dryer: Rotary drum with biomass burner sized for 10-12 tons per hour wet feed. FOB $300,000-500,000.
• Grinding: Hammer mills for bark and branches—these are tougher than clean wood. For 5-6 tons per hour output, you need grinding capacity of 10-12 tons per hour wet. Two hammer mills with 160-200kW motors each. FOB $120,000-180,000.
• Pellet mills: For 5-6 tons per hour output, you have options:
  • Two MZLH520 units at 132kW each, each doing 1.5-2.0 tons per hour. Total FOB $90,000-110,000.
  • One MZLH678 at 185kW and one MZLH520 at 132kW for flexibility. Total FOB $100,000-130,000.
• Cooling and screening: Sized for 5-6 tons per hour. FOB $50,000-80,000.
• Bagging or bulk: FOB $50,000-100,000 depending on automation.

Total FOB range: $600,000-1,000,000 depending on dryer size and automation.

Landed in Misiones: $800,000-1,400,000 all in.

Why bark is challenging

Bark is more abrasive than clean wood and contains more ash. For ENplus certification, bark pellets may have higher ash content than allowed. But for industrial fuel, bark pellets work well—they have good calorific value and are often cheaper to produce.

Branches considerations

Branches need chipping before grinding. You might need a chipper or shredder ahead of the hammer mill if you’re processing whole branches. Add $30,000-60,000 for chipping equipment.

Sawdust advantage

If you have sawdust from the same source, blending with bark improves pellet quality. Sawdust is cleaner and less abrasive. Many operations blend 30-50% sawdust with bark for better results.

The Misiones line you heard about

The forestry waste pellet line in Misiones that you heard about might be one we supplied—there are several operating in the region. The key to their success is consistent raw material supply and properly sized drying. Without adequate drying, everything else struggles.

Moisture management tips

• Cover your raw material storage to reduce rain absorption
• Process freshest material first—don’t let it sit too long
• Consider air-drying in windrows before processing
• Monitor moisture constantly and adjust dryer settings

The forestry waste pellet line in Argentina that we design for your operation will be sized for your specific materials. Send us samples of your bark, branches, and sawdust with moisture analysis, and we’ll engineer the right solution.

Eucalyptus is denser and more abrasive than pine, which affects die selection and expected life. For 12 tons per hour of eucalyptus pellets for export, you need equipment built for the challenge.

Die specifications for eucalyptus vs. pine

Why the difference

Eucalyptus wood is:

• Denser: More force required to compress
• More abrasive: Higher silica content wears dies faster
• Higher in extractives: Can cause die hole plugging if not properly conditioned

Machine selection for 12 tons per hour

For 12 tons per hour of eucalyptus pellets, you have options:

Option A: Multiple MZLH768 units

• Four MZLH768 at 250kW each, each producing 3-4 tons per hour on eucalyptus
• Total FOB $300,000-350,000 for the pellet mills
• Advantage: Redundancy, easier maintenance, can run partial loads
• Disadvantage: Higher total cost, more floor space

Option B: Larger machines

• Three MZLH units—perhaps two MZLH768 and one MZLH678—for 12 tons total
• Or explore our largest models if available

Complete line considerations

For export-quality eucalyptus pellets, you need:

• Chipping: If starting from logs, a drum chipper with 200-300kW motor. FOB $80,000-150,000.
• Drying: Eucalyptus from the forest is 45-55% moisture. For 12 tons per hour output, you need a dryer sized for 24-30 tons per hour wet feed. Rotary drum with biomass burner. FOB $600,000-900,000.
• Grinding: After drying, hammer mills to 3-5mm particle size. For 12 tons per hour, multiple mills with 200-250kW motors each. FOB $200,000-300,000.
• Pellet mills: As above.
• Cooling and screening: Sized for 12 tons per hour. FOB $80,000-120,000.
• Bagging/bulk loading: For export, bulk loading into containers is typical. FOB $100,000-200,000.
• Dust collection and control: Complete system. FOB $80,000-150,000.

Total FOB range: $1.4-2.2 million depending on dryer size and automation.

Landed in Corrientes: $1.9-3.0 million all in.

Why eucalyptus for export

European markets pay premium for eucalyptus pellets because of:

• High calorific value (4,500-4,800 kcal/kg)
• Low ash content (if debarked)
• Consistent quality

Corrientes eucalyptus is well-regarded in export markets.

Die life management

To maximize die life with eucalyptus:

• Use chromium stainless steel dies
• Maintain proper conditioning (steam addition)
• Keep material moisture consistent
• Rotate dies to distribute wear
• Inspect rollers regularly and adjust clearance

Alternative approach

Some operations blend eucalyptus with softer woods to improve pelleting characteristics and extend die life. If you have access to pine or other softwoods, a blend of 70% eucalyptus, 30% pine might work better than pure eucalyptus.

The eucalyptus wood pellet mill for sale in your area of Corrientes needs to be specified for this challenging material. We’ve supplied equipment to eucalyptus pellet plants in Brazil, Chile, and Argentina and understand the requirements. Send us your raw material analysis and production goals, and we’ll recommend the right configuration.

For 4 tons per hour of straw pellets for animal bedding, the CZLH520 is close but slightly undersized. Let me explain.

CZLH520 specifications

• Motor: 132kW
• Output on fibrous material: 2.8-3.0 tons per hour
• Die diameter: 520mm

Running at 4 tons per hour would push this machine to 130-140% of rated capacity, which is not recommended. You’d experience:

• Rapid die wear
• Frequent plugging
• Inconsistent pellet quality
• Motor overload risk

Better options

Option 1: CZLH678

• Motor: 185kW
• Output on fibrous material: 4-5 tons per hour
• Die diameter: 673mm

This puts you right in the sweet spot at 4 tons per hour, with 20-25% reserve capacity for variations in material or moisture.

Option 2: Two CZLH520 units

• Two machines, each doing 2-2.5 tons per hour
• Total capacity 4-5 tons per hour
• Advantages: Redundancy, can run one while maintaining the other
• Disadvantages: Higher capital cost, more floor space

Complete line for straw bedding pellets

Animal bedding from straw needs:

• Bale breaker: Square or round bales need breaking before grinding. For 4 tons per hour output, a heavy-duty bale breaker. FOB $30,000-50,000.
• Hammer mill: Straw is fibrous and needs specialized grinding. The straw grinder with heavy-duty hammers and screens sized for 3-5mm particle size. For 4 tons per hour, a 110-132kW hammer mill. FOB $25,000-40,000.
• Pellet mill: CZLH678 as above. FOB $66,000-81,000.
• Cooler: Counter-flow cooler sized for 4 tons per hour. FOB $20,000-35,000.
• Screener: To remove fines. FOB $10,000-20,000.
• Bagging or bulk: For bedding, often sold in bags or bales. Manual or automated bagging. FOB $15,000-40,000.

Total FOB range: $160,000-250,000 depending on automation.

Landed in Córdoba: $220,000-350,000 all in.

Why straw for animal bedding

Straw pellets for bedding have advantages over loose straw:

• Less dust
• Higher absorbency
• Easier handling and storage
• Less waste (animals don’t sort through it)

Horse stables, poultry houses, and livestock operations are all potential customers.

Moisture considerations

Wheat straw and corn stalks from the field can be 15-20% moisture if harvested dry. That’s acceptable for pelleting without drying. If your straw is wetter, you might need a dryer, which adds significant cost.

Particle size for bedding

For animal bedding, you want pellets that will break down into fluffy material when wetted, not hard dense pellets. This means:

• Lower compression ratio in the die
• Possibly larger pellets (8-10mm)
• Some operators intentionally make softer pellets

The CZLH678 straw pellet machine with adjustable roller clearance lets you tune pellet hardness.

Market in Córdoba

Córdoba has significant livestock and poultry operations that need bedding. With 4 tons per hour, you could supply several large operations or many smaller ones. The key is consistent quality—pellets that break down well and absorb moisture effectively.

Alternative: Fuel pellets

The same straw can also be pelleted for fuel. If you have both markets, you might configure the line to switch between bedding and fuel pellets with die changes. Bedding uses lower compression, fuel uses higher compression.

The straw pellet making machine in Argentina for your Córdoba operation should be the CZLH678. It gives you the capacity you need with room for growth. Send us your straw type and moisture content, and we’ll confirm the configuration.

Alfalfa pellets for export are a proven business in Argentina. Buenos Aires province produces excellent alfalfa, and export markets in the Middle East, Asia, and Europe value high-quality pellets.

Complete line requirements for 6-8 tons per hour

• Bale breaker: For round or square bales. At 6-8 tons per hour output, you need a heavy-duty bale breaker capable of 10-12 tons per hour input. FOB $40,000-70,000.
• Drying: Alfalfa from the field can be 18-22% moisture if baled at the right time. For export pellets, you need 12-14% moisture before pelleting. If your bales are consistently dry, you might not need a dryer. But if you bale at higher moisture or want to extend your season, a dryer is essential. For 6-8 tons per hour output, a medium-sized rotary drum dryer with biomass burner. FOB $200,000-350,000.
• Grinding: After bale breaking, alfalfa needs grinding to 3-5mm particle size. A hammer mill with 110-160kW motor. FOB $25,000-45,000.
• Pellet mill: For 6-8 tons per hour of alfalfa, the CZLH678 with 185kW motor produces 4-5 tons per hour, so you’d need either two units or the CZLH768 with 250kW motor for 6-8 tons per hour. The CZLH768 is the better choice—one machine, less floor space, easier operation. FOB $78,000-96,000.
• Cooling: Counter-flow cooler sized for 6-8 tons per hour. FOB $30,000-50,000.
• Screening: Vibratory screener to remove fines. FOB $15,000-25,000.
• Bagging or bulk loading: For export, you need efficient loading into containers. Bulk loading systems with telescopic spouts. FOB $50,000-100,000 depending on automation.
• Dust collection: Throughout the line. FOB $30,000-60,000.

Total FOB range:

• Without dryer: $250,000-400,000
• With dryer: $450,000-750,000

Landed in Buenos Aires province:

• Without dryer: $350,000-550,000 all in
• With dryer: $600,000-1,000,000 all in

Why alfalfa pellets for export

Export markets pay premium for:

• Consistent protein content (17-19% typical)
• Bright green color (indicates fresh, properly dried alfalfa)
• Low fines and uniform size
• Traceability and certification

Drying decision

The biggest decision is whether to include a dryer. If you can consistently bale at 14-16% moisture and store properly, you might not need one. But this limits your harvest window and makes you dependent on weather. A dryer lets you:

• Harvest at optimal nutrition stage regardless of weather
• Use higher-moisture bales
• Run year-round with stored hay
• Control moisture precisely for pellet quality

The cost of a dryer is significant, but many exporters consider it essential for consistent quality.

Bale breaker selection

Alfalfa bales come in different forms:

• Round bales: Need a different breaker design than square
• Square bales: Standard in many operations
• High-density bales: Require more power

Specify your bale type when ordering.

Pellet specifications for export

Typical export specifications:

• Diameter: 6mm or 8mm
• Length: 10-30mm
• Durability: 97%+ (low fines)
• Moisture: 12% maximum
• Protein: Minimum 15-17% depending on contract

The CZLH768 alfalfa grass pellet machine with proper die selection produces pellets that meet these specs.

Alfalfa pellet mill for sale in Argentina

We’ve supplied many alfalfa pellet lines in Argentina, including several in Buenos Aires province. The key to success is:

• Proper bale breaking to consistent length
• Adequate drying (if included)
• Correct die selection for alfalfa
• Good cooling to prevent moisture regain

The alfalfa pellet mill for sale in Argentina that we recommend for your operation is the CZLH768 with stainless steel conditioner and forced feeder. Send us your bale type, typical moisture, and target specifications, and we’ll provide a complete proposal.

For a mixed hay operation in La Pampa processing native grasses and alfalfa for local feed, you need flexibility. Native grasses are tougher and more fibrous than alfalfa, so the line must handle both.

Complete line for 3-4 tons per hour

• Bale breaker: For whatever bale type you use—likely round bales in La Pampa. FOB $25,000-45,000.
• Grinding: A hammer mill with 90-110kW motor, capable of handling both alfalfa and tough native grasses. For grasses, you might need heavier hammers and different screens than for alfalfa. FOB $20,000-35,000.
• Drying: Native grasses from the field can be 15-20% moisture if cut at the right time. If you can manage harvest timing, you might avoid a dryer. But if you want to process year-round or use rain-damaged hay, a small dryer helps. For 3-4 tons per hour, a compact rotary drum. FOB $100,000-180,000.
• Pellet mill: For 3-4 tons per hour of mixed hay, the CZLH520 with 132kW motor produces 2.8-3.0 tons per hour, so you’d be at the top end. Better: CZLH678 with 185kW motor for 4-5 tons per hour, giving you reserve capacity. FOB $66,000-81,000 for CZLH678.
• Cooling: Counter-flow cooler sized for 3-4 tons per hour. FOB $20,000-35,000.
• Screening: To remove fines. FOB $10,000-20,000.
• Bagging or bulk: For local feed, you might sell in bags or bulk. Simple bagging station or bulk loading. FOB $10,000-30,000.

Total FOB range:

• Without dryer: $150,000-250,000
• With dryer: $250,000-430,000

Landed in La Pampa:

• Without dryer: $200,000-350,000 all in
• With dryer: $350,000-600,000 all in

Why native grasses are different

Native grasses in La Pampa have:

• Higher fiber content than alfalfa
• Often tougher stems
• Variable quality by season
• May need different die specifications

The CZLH series with adjustable roller clearance lets you tune for different materials.

Feed value for local market

Hay pellets for local feed compete with baled hay. Advantages:

• Less waste (animals can’t sort out stems)
• Easier handling and storage
• Consistent nutrition per bite
• Can blend with supplements

Disadvantages:

• Processing cost
• Need for equipment investment

Market in La Pampa

La Pampa has significant sheep and cattle operations that need winter feed. If you can produce pellets at competitive prices, local farmers will buy. The key is consistent quality and reliable supply.

Alternative: Contract pelleting

Some farmers in your situation start by offering contract pelleting services to neighbors before building their own line. This spreads equipment cost across more volume and builds market awareness.

Hay pellet production line in Argentina

For your La Pampa operation, we recommend:

• Bale breaker matched to your bales
• Hammer mill with screens for both fine (alfalfa) and coarse (grasses) grinding
• CZLH678 pellet mill for capacity and flexibility
• Cooler and screener
• Simple bagging station

This configuration gives you room to grow to 4 tons per hour with quality equipment. The hay pellet production line in Argentina we design will be built for your specific materials. Send us samples of your native grasses and alfalfa, and we’ll confirm the configuration.

For 5 tons per hour of pasture grass pellets, the CZLH678 with 185kW motor is your machine. It produces 4-5 tons per hour on fibrous material, so running at 5 tons puts you at the top end. That’s acceptable if your grasses are consistent and you maintain the equipment well.

CZLH678 specifications

• Motor: 185kW
• Output: 4-5 tons per hour on grass
• Die diameter: 673mm
• Includes anti-bridging feeder and force feeder

If you want reserve capacity

The CZLH768 with 250kW motor produces 6-8 tons per hour, giving you 20-40% reserve capacity. This extends die life and handles variations in grass quality or moisture better. The additional cost might be worth it for reliability, especially if you’re running long seasons.

Complete line requirements for 5 tons per hour

• Bale breaker: For pasture grass bales—likely round bales in San Luis. FOB $30,000-50,000.
• Grinding: Pasture grass needs grinding to 3-5mm particle size. A hammer mill with 110-132kW motor, with screens matched to grass. FOB $25,000-40,000.
• Drying: Pasture grass from the field can be 15-20% moisture if cut at the right time. If you can manage harvest timing, you might avoid a dryer. But if you need to process year-round or use rain-damaged grass, a dryer helps. For 5 tons per hour, a medium dryer. FOB $150,000-250,000.
• Pellet mill: CZLH678 as above. FOB $66,000-81,000.
• Cooling: Counter-flow cooler sized for 5 tons per hour. FOB $25,000-40,000.
• Screening: To remove fines. FOB $15,000-25,000.
• Bagging or bulk: For winter feed, you might sell in bags or bulk. FOB $15,000-30,000.

Total FOB range:

• Without dryer: $170,000-270,000
• With dryer: $320,000-520,000

Landed in San Luis:

• Without dryer: $230,000-380,000 all in
• With dryer: $450,000-730,000 all in

Why San Luis works

San Luis has significant livestock operations that need winter feed. Pasture grasses are abundant, and pelleting lets you:

• Store feed efficiently
• Reduce waste
• Provide consistent nutrition
• Transport easily to remote areas

Grass quality considerations

Pasture grass quality varies by:

• Species composition
• Time of cutting
• Weather during growing season
• Storage conditions

Your pellet mill needs to handle this variation. The CZLH678 with adjustable roller clearance and variable feeder speed lets you tune for changing conditions.

Pellet size for livestock

For cattle and sheep, 6mm or 8mm pellets work well. Sheep can handle smaller pellets, but 6mm is a good compromise. The CZLH678 can produce any size from 4-12mm with die changes.

Grass pellet mill for sale in Argentina

We’ve supplied grass pellet lines to several operations in Argentina, including in San Luis. The key to success is:

• Consistent particle size from grinding
• Proper moisture management
• Correct die selection for grass
• Good cooling to prevent spoilage

The grass pellet mill for sale in Argentina that we recommend for your San Luis operation is the CZLH678 with forced feeder and stainless steel conditioner. Send us your grass type and typical moisture, and we’ll confirm the configuration.

Corn stalks are abundant in Córdoba after harvest, but they’re not highly digestible in their raw form. The key to making good cattle feed from stalks is proper processing to break down lignin and increase digestibility.

The process for corn stalk feed

1. Harvest and collection: Stalks left after corn harvest need baling. Round or square bales work.
2. Bale breaking: Bales go through a bale breaker to separate and fluff the material.
3. Grinding: The stalks need grinding to 3-5mm particle size. This is critical—too coarse and cattle won’t digest well, too fine and you create dust.
4. Treatment options:
   • Urea treatment: Adding urea (typically 4-5%) with moisture and allowing it to react breaks down lignin and adds nitrogen. This requires holding time (1-2 weeks) in covered piles.
   • Steam conditioning: High-temperature steam in the pellet mill conditioner helps break down fibers.
   • Enzyme addition: Some operations add fibrolytic enzymes to improve digestibility.
5. Pelleting: The treated material goes through a pellet mill to create dense, easy-to-handle pellets.
6. Cooling and storage: Pellets are cooled and stored.

Equipment for 8 tons per hour

• Bale breaker: Heavy-duty unit for corn stalk bales. Corn stalks are tougher than hay. FOB $40,000-70,000.
• Hammer mill: For fibrous stalks, you need a heavy-duty hammer mill with 160-200kW motor. For 8 tons per hour output, you might need two mills. FOB $50,000-90,000 total.
• Treatment system: If using urea, you need a mixer to apply urea solution evenly. A horizontal mixer with liquid addition capability, 2-3 ton capacity. FOB $30,000-50,000. Plus holding area with covered storage.
• Pellet mill: For 8 tons per hour of corn stalks, the CZLH678 with 185kW motor produces 4-5 tons per hour, so you’d need two units. Or the CZLH768 with 250kW motor produces 6-8 tons per hour, so one unit might suffice at the top end. Two CZLH678 units give you redundancy. FOB $130,000-160,000 for two.
• Cooling: Counter-flow coolers sized for 8 tons per hour total. FOB $40,000-70,000.
• Screening: To remove fines. FOB $20,000-35,000.
• Bagging or bulk: FOB $20,000-40,000.

Total FOB range: $400,000-700,000 depending on treatment approach and automation.

Landed in Córdoba: $550,000-1,000,000 all in.

Why corn stalks for cattle feed

Corn stalks are:

• Abundant and cheap
• Available after harvest when other forage is scarce
• Can replace purchased hay or silage
• With proper treatment, provide maintenance-level nutrition

Digestibility improvement

Untreated corn stalks have low digestibility (40-45%). With urea treatment, digestibility can increase to 50-55%. Not as good as alfalfa, but adequate for dry cows or growing animals on maintenance rations.

Blending option

Many operations blend corn stalks with higher-quality ingredients:

• 70% corn stalks + 30% alfalfa
• 80% corn stalks + 20% grain and protein meal
• Add molasses for palatability

This improves nutrition while keeping costs down.

Market in Córdoba

Córdoba has huge cattle numbers and plenty of corn stalks. A corn stalk pellet operation could supply:

• Feedlots needing roughage
• Cow-calf operations during winter
• Backgrounding operations

Corn stalk pellet making machine in Argentina

The corn stalk pellet making machine in Argentina for your operation needs to be robust. Corn stalks are tougher than hay and more abrasive. The CZLH series with forced feeding and heavy-duty construction is proven for this application.

Send us your stalk quality (moisture, chop length) and target animal class, and we’ll design a line with appropriate treatment.

Rice husks are one of the most challenging materials for pellet mills. They’re highly abrasive, high in silica, and have poor binding characteristics. Die life with rice husks is significantly shorter than with wood or straw.

Die life comparison

• Wood pellets: 800-1,200 hours typical die life
• Straw pellets: 600-1,000 hours
• Rice husk pellets: 300-500 hours typical, sometimes less depending on husk quality

Why rice husks are hard on dies

Rice husks contain 15-20% silica (sand-like material). This silica acts as an abrasive, wearing down the die holes and roller shells rapidly. Additionally, rice husks have:

• Low lignin content (poor natural binding)
• High ash content (10-15% in pellets)
• Variable moisture

Equipment modifications for rice husks

For rice husk pelleting, you need:

• Chromium stainless steel dies (X46Cr13 or better) – standard alloy steel won’t last
• Hard-faced rollers with tungsten carbide coating
• Forced feeding system because rice husks don’t flow well
• Oversized gearbox to handle higher torque
• Easy access for die changes because you’ll do them often

For 5 tons per hour of rice husk pellets

• Drying: Rice hulls from the mill can be 10-15% moisture if stored properly. If they’re wetter, you need drying. For 5 tons per hour output, a medium dryer if needed. FOB $150,000-250,000.
• Grinding: Rice hulls need grinding to 2-4mm particle size. A hammer mill with 90-110kW motor and wear-resistant hammers. FOB $25,000-40,000.
• Binder addition: Because rice husks bind poorly, you may need a binder—lignosulfonate, starch, or bentonite (2-5%). This requires a mixer before the pellet mill. FOB $20,000-35,000.
• Pellet mill: For 5 tons per hour, you need a robust machine. The MZLH768 rice husk pellet machine with 250kW motor produces 3-4 tons per hour on wood, but on rice husks, expect 2.5-3 tons due to density and flow issues. You might need two MZLH768 units. FOB $160,000-200,000 for two.
• Cooling: Counter-flow cooler sized for 5 tons per hour. FOB $30,000-50,000.
• Screening: To remove fines. FOB $15,000-25,000.
• Dust collection: Rice husk dust is explosive—proper collection essential. FOB $30,000-60,000.

Total FOB range: $400,000-700,000 depending on drying needs and automation.

Landed in Corrientes: $550,000-1,000,000 all in.

Fuel value of rice husk pellets

Rice husk pellets typically have:

• Calorific value: 3,500-4,000 kcal/kg (lower than wood)
• Ash content: 10-15% (much higher than wood)
• Price: Lower than wood pellets

They’re suitable for industrial boilers designed for high-ash fuels, especially in rice-producing regions.

Market in Corrientes

Corrientes has rice mills producing hulls continuously. Potential customers:

• The rice mill itself (for process heat)
• Other industrial users
• Cement plants (if ash acceptable)
• Export to countries with high-ash boilers

Die life management

To maximize die life with rice husks:

• Use premium chromium stainless steel dies
• Maintain consistent material moisture (12-14% ideal)
• Keep material clean (minimize sand contamination)
• Monitor roller adjustment closely
• Rotate dies to distribute wear
• Consider pre-compression with a roller mill before pelleting

Alternative: Briquetting

Some operations briquette rice husks instead of pelleting. Briquettes are larger (50-100mm diameter) and can be made with simpler equipment that’s less sensitive to abrasion. But briquettes aren’t suitable for all boilers.

The rice husk pellet machine in Argentina for your Corrientes operation needs to be built for this tough application. We’ve supplied equipment to rice husk pellet plants in other countries and understand the challenges. Send us a sample of your hulls with moisture and ash analysis, and we’ll recommend the right configuration with realistic die life expectations.

Peanut shells are an abundant byproduct in Córdoba, and pelleting them for cattle feed is a smart way to add value. Let me give you the nutritional facts first.

Peanut shell nutritional value

Peanut shells are:

• Protein: 5-7% (low compared to alfalfa’s 17-20%)
• Fiber: 60-65% (very high)
• Digestibility: Low (30-40% without treatment)
• Energy: Low

As a standalone feed, peanut shells provide mostly roughage. They’re best used as:

• A roughage source in maintenance rations
• A carrier for liquid supplements
• Blended with higher-quality ingredients

Blending for better nutrition

For cattle feed, peanut shells are often blended with:

• Grain and protein meal (to raise energy and protein)
• Molasses (for palatability and energy)
• Urea (to add nitrogen)
• Alfalfa or other forages

A typical blend might be: 60% peanut shells, 30% grain, 10% protein meal plus molasses.

Equipment for 6 tons per hour of peanut shell pellets

• Grinding: Peanut shells need grinding to 3-5mm particle size. They’re abrasive but not as tough as wood. A hammer mill with 110-132kW motor and wear-resistant hammers. FOB $25,000-40,000.
• Blending: If you’re adding grain, protein, or molasses, you need a mixer. A horizontal ribbon mixer with 2-3 ton capacity and liquid addition for molasses. FOB $30,000-50,000.
• Drying: Peanut shells from the shelling operation are typically 8-12% moisture—dry enough for pelleting without drying. This saves significant cost.
• Pellet mill: For 6 tons per hour of blended peanut shell feed, the CZLH678 peanut shell pellet machine with 185kW motor produces 4-5 tons per hour, so you’d need two units or the CZLH768 with 250kW motor for 6-8 tons per hour. The CZLH768 is the better choice. FOB $78,000-96,000.
• Cooling: Counter-flow cooler sized for 6 tons per hour. FOB $25,000-45,000.
• Screening: To remove fines. FOB $15,000-25,000.
• Bagging or bulk: For cattle feed, bulk loading is typical. FOB $15,000-30,000.

Total FOB range: $200,000-350,000 depending on blending complexity.

Landed in Córdoba: $280,000-500,000 all in.

Why peanut shells work for feed

Despite low nutrition, peanut shells have advantages:

• They’re cheap (often free or low cost)
• They provide needed roughage in feedlot rations
• They absorb moisture and bind well with molasses
• They’re available year-round from shelling operations

Market in Córdoba

Córdoba’s cattle industry can absorb significant volumes of peanut shell pellets, especially if priced competitively with other roughage sources. Feedlots near peanut processing areas are natural customers.

Pellet specifications

For cattle feed, 6mm or 8mm pellets work well. The pellets should be hard enough to handle but not so hard cattle reject them.

Peanut shell pellet mill for sale in Argentina

We’ve supplied peanut shell pellet lines to several operations in Córdoba. The key to success is:

• Proper grinding to consistent particle size
• Good mixing if blending with other ingredients
• Die selection appropriate for the blend
• Cooling to prevent spoilage

The peanut shell pellet mill for sale in Argentina that we recommend for your operation is the CZLH768 with stainless steel conditioner and forced feeder. Send us your shell analysis and target blend, and we’ll configure the line accordingly.

Soybean hulls are an excellent feed ingredient—moderate protein, high fiber, and good digestibility. They’re often used in ruminant rations as a fiber source that’s more digestible than many forages.

Soybean hull nutritional value

• Protein: 12-14% (good for a fiber source)
• Fiber: 35-40% (highly digestible fiber)
• Energy: Moderate
• Palatability: Good

Soybean hulls are often pelleted to improve handling and reduce dust. They pellet well because they have some natural binding properties.

Equipment for 10 tons per hour

• Grinding: Soybean hulls from the crush plant are usually already 3-5mm particle size. You might not need grinding. If they’re too coarse, a hammer mill with 90-110kW motor. FOB $20,000-35,000 if needed.
• Pellet mill: For 10 tons per hour of soybean hulls, you have options:
  • Two SZLH420 units at 110kW each, each doing 5-6 tons per hour on hulls. Total FOB $60,000-70,000.
  • One SZLH508 at 160kW for 8-10 tons per hour. FOB $38,000-46,000.
  • The SZLH series works well for soybean hulls because they’re not highly abrasive.
• Cooling: Counter-flow cooler sized for 10 tons per hour. FOB $35,000-60,000.
• Screening: To remove fines. FOB $20,000-35,000.
• Bagging or bulk: For feed, often sold in bulk to feedlots. FOB $20,000-40,000.

Total FOB range: $130,000-250,000 depending on grinding needs and automation.

Landed in Santa Fe: $180,000-350,000 all in.

Why soybean hulls for feed

Soybean hulls are:

• Available in large quantities from crush plants
• Nutritionally valuable for ruminants
• Easy to pellet (good binding)
• Cost-effective compared to forages

Market in Santa Fe

Santa Fe is cattle country with many feedlots. Soybean hull pellets from a nearby crush plant would have a natural market advantage—low transport cost and reliable supply.

Pellet specifications

For cattle feed, 6mm or 8mm pellets work well. Soybean hull pellets should be:

• Durable enough for handling
• Not too hard (cattle will eat them readily)
• Consistent in size

Soybean hull pellet machine in Argentina

The soybean hull pellet machine in Argentina for your operation is straightforward. SZLH series equipment with standard dies works well. The key is matching capacity to your hull supply.

If the crush plant generates 10 tons per hour of hulls consistently, you can run one shift and process 80 tons per day. That’s enough for several feedlots.

Value-added options

Consider blending soybean hulls with:

• Molasses (for energy and palatability)
• Corn gluten feed (for protein)
• Mineral supplements

This creates a complete feed product that commands higher prices. Adding a mixer and liquid addition system (extra $30,000-50,000) lets you produce value-added blends.

Soybean hull pellet machine for sale in Argentina

We’ve supplied several soybean hull pellet lines in Santa Fe. The SZLH508 with 160kW motor is a popular choice—good capacity, reliable operation, reasonable cost. Send us your hull volume and target market, and we’ll recommend the right configuration.

Sunflower husks are an excellent biomass fuel. They’re abundant in Buenos Aires province from seed processing, and they have good energy content.

Sunflower husk fuel value

• Calorific value: 4,200-4,500 kcal/kg (similar to wood)
• Ash content: 3-5% (moderate)
• Moisture: 10-15% typical from processing (ideal for pelleting)

Equipment for 15 tons per hour

• Grinding: Sunflower husks may need grinding if they’re too coarse. A hammer mill with 160-200kW motor. For 15 tons per hour, you might need two mills. FOB $50,000-90,000.
• Pellet mills: For 15 tons per hour of sunflower husks, you need multiple units:
  • Four MZLH520 units at 132kW each, each doing 1.5-2.0 tons per hour. Total FOB $160,000-200,000.
  • Three MZLH678 units at 185kW each, each doing 2.5-3.0 tons per hour. Total FOB $200,000-250,000.
  • Two MZLH768 units at 250kW each, each doing 3-4 tons per hour. Total FOB $160,000-200,000.
  The MZLH768 with 250kW motor is efficient and proven for biomass.
• Cooling: Counter-flow coolers sized for 15 tons per hour total. FOB $60,000-100,000.
• Screening: To remove fines. FOB $30,000-50,000.
• Bulk loading: For fuel, bulk loading into trucks or containers. FOB $40,000-80,000.
• Dust collection: Essential for biomass. FOB $50,000-100,000.

Total FOB range: $600,000-1,000,000 depending on equipment choices.

Landed in Buenos Aires province: $800,000-1,400,000 all in.

Why sunflower husks for fuel

Sunflower husks have advantages:

• Already dry from processing (often 10-15% moisture)
• Consistent quality
• Available year-round
• Good calorific value
• Lower ash than some biomass

Market options

With 15 tons per hour, you could supply:

• Your own plant’s energy needs (process heat)
• Other industrial users in the region
• Power plants
• Export markets

Many sunflower processors use their husks for process heat, offsetting natural gas or fuel oil costs. At current energy prices, this can be highly economical.

Pellet specifications for industrial use

Industrial boilers typically want:

• 6mm or 8mm pellets
• Durability >95%
• Moisture <12%
• Fines <5%

Sunflower husk pellet line in Argentina

A sunflower husk pellet line in Argentina for your plant would integrate well with existing operations. The husks are already a waste stream—pelleting them creates a valuable product.

Integration considerations

• Location: Place the pellet line near your husk collection point
• Power: You likely have adequate electrical capacity
• Steam: If you have steam for processing, it could be used for pellet conditioning
• Heat recovery: Dryer heat (if needed) could come from your boilers

Return on investment

If you currently pay to dispose of husks, the savings alone justify the investment. If you sell pellets at $150-200 per ton, 15 tons per hour running 6,000 hours per year produces 90,000 tons annually—$13.5-18 million revenue. Operating costs might be $100-120 per ton, leaving $4.5-7 million annual margin. Payback in 2-3 years is realistic.

The sunflower husk pellet line in Argentina we design for your plant will be sized for your specific husk volume and quality. Send us your husk analysis and energy needs, and we’ll prepare a proposal.

Vineyard prunings are an excellent fuel source, and Mendoza’s wine industry generates massive quantities annually. Using them to offset natural gas makes perfect sense.

Energy offset calculation

Let’s do the math for your situation:

• Prunings pellets calorific value: 4,200-4,500 kcal/kg (similar to wood)
• Natural gas energy: 9,300 kcal/m³ approximately
• Pellet energy per ton: 4,200,000 kcal

If you produce 2.5 tons per hour average and run 2,000 hours per year (pruning season plus some stored material), that’s 5,000 tons of pellets annually.

5,000 tons × 4,200,000 kcal/ton = 21 billion kcal
21 billion kcal ÷ 9,300 kcal/m³ = 2.26 million m³ of natural gas

At current gas prices in Argentina, that’s significant savings. For a medium to large winery, 2-3 tons per hour can offset a substantial portion of heating needs.

Equipment for 2-3 tons per hour

• Chipping: Vineyard prunings need chipping before processing. A drum chipper with 55-90kW motor, capable of handling branches up to 50mm diameter. FOB $30,000-50,000.
• Drying: Fresh prunings can be 40-50% moisture. For efficient pelleting, you need 12-15% moisture. A small rotary drum dryer with biomass burner (using some of your prunings as fuel). FOB $80,000-150,000.
• Grinding: After drying, chips need grinding to 3-5mm particle size. A hammer mill with 55-75kW motor. FOB $15,000-25,000.
• Pellet mill: For 2-3 tons per hour, the MZLH520 with 132kW motor produces 1.5-2.0 tons per hour, so you’d be at the top end. Better: MZLH678 with 185kW motor for 2.5-3.0 tons per hour, giving you reserve capacity. FOB $66,000-81,000.
• Cooling: Counter-flow cooler sized for 2-3 tons per hour. FOB $15,000-25,000.
• Storage: For your own use, you need pellet storage—a silo or covered area. Add $20,000-40,000.

Total FOB range: $220,000-380,000 depending on dryer inclusion.

Landed in Mendoza: $300,000-550,000 all in.

Seasonal operation consideration

Vineyard prunings are seasonal, but you can store chips or pellets for year-round use. Options:

• Chip and dry during pruning season, store chips, pellet as needed
• Pellet all at once and store pellets (requires more storage but simpler operation)
• Run the line during pruning season only, store pellets for the year

Storage requirements: For 5,000 tons of pellets, you need about 10,000-12,000 m³ of covered storage.

Fuel switching economics

With natural gas prices volatile and expected to rise, pellet heating becomes more attractive. Plus, you’re using a waste product that might otherwise be burned in the field or disposed of.

Vineyard prunings pellet machine for sale in Argentina

A vineyard prunings pellet machine for sale in Argentina for your winery needs to handle:

• Variable material (different pruning sizes)
• Some dirt and debris (common in collected prunings)
• Seasonal operation

The MZLH678 with forced feeder and heavy-duty construction is proven for this application. We’ve supplied similar systems to wineries in Chile and Italy.

Additional considerations

• Permits: Biomass combustion may need environmental permits
• Boiler modification: Your existing gas boilers may need modification to burn pellets, or you might install a dedicated biomass boiler
• Ash handling: Pellet ash needs collection and disposal (can be used as fertilizer)

The vineyard prunings pellet machine in Argentina for your Mendoza winery will pay for itself over time through fuel savings. Send us your pruning volume and energy needs, and we’ll do a full feasibility analysis.

Absolutely. Seasonal operation is common for agricultural residues like orchard prunings. The key is designing the line for intermittent use and planning storage.

Seasonal operation considerations

• Equipment durability: Even with seasonal use, equipment needs to be industrial-grade. It will sit idle for months, then run hard.
• Maintenance: Plan for thorough maintenance at the end of each season to prevent problems when starting up again.
• Storage: You’ll need to store either chips or pellets for year-round use.

Storage options

Option A: Store chips, pellet year-round

• Chip prunings during pruning season, store chips in covered piles
• Run pellet line year-round at lower capacity (1-2 tons per hour)
• Requires chip storage but smaller pellet line

Option B: Store pellets, run seasonally

• Run pellet line at full capacity during pruning season (4 tons per hour)
• Store all pellets produced for year-round use
• Requires large pellet storage but simpler operation

For 4 tons per hour running 8 hours per day for 60 days of pruning season, you’d produce about 1,900 tons. If your heating needs are 4 tons per day year-round (1,460 tons annually), this works perfectly.

Equipment for 4 tons per hour

• Chipping: Drum chipper with 90-110kW motor for apple and pear wood. FOB $40,000-70,000.
• Drying: Fresh prunings can be 40-50% moisture. For pelleting, you need 12-15%. A medium rotary drum dryer with biomass burner. FOB $120,000-200,000.
• Grinding: After drying, hammer mill with 90-110kW motor. FOB $20,000-35,000.
• Pellet mill: For 4 tons per hour, the MZLH678 with 185kW motor produces 2.5-3.0 tons per hour, so you’d need two units or the MZLH768 with 250kW motor for 3-4 tons per hour. Two MZLH678 units give you redundancy. FOB $130,000-160,000 for two.
• Cooling: Counter-flow cooler sized for 4 tons per hour. FOB $20,000-35,000.
• Storage: Pellet silo or covered storage for 1,500-2,000 tons. Add $50,000-100,000 depending on type.

Total FOB range: $380,000-600,000 depending on dryer and storage choices.

Landed in Río Negro: $500,000-850,000 all in.

Why orchard prunings work for heating

Apple and pear wood have:

• Good calorific value (4,200-4,400 kcal/kg)
• Moderate density
• Low ash content
• Available annually from pruning

Market beyond your own use

If you produce more than you need, you could sell surplus pellets to:

• Other fruit packers
• Local greenhouses
• Residential heating market
• Industrial users

This could offset some equipment cost.

Orchard prunings pellet mill in Argentina

An orchard prunings pellet mill in Argentina for your Río Negro operation needs to handle fruit wood specifically. Apple and pear wood are similar to other hardwoods—dense and good burning.

Seasonal startup procedure

Each season:

1. Inspect all equipment before startup
2. Check bearings, belts, and wear parts
3. Run test batches to verify quality
4. Adjust dryer settings for current material moisture
5. Monitor closely for first few days

At season end:

1. Clean equipment thoroughly
2. Lubricate according to manual
3. Cover or store sensitive components
4. Document any issues for next season’s maintenance

The orchard prunings pellet mill in Argentina for your operation will be built for this duty cycle. Send us your pruning volume and heating requirements, and we’ll design the right seasonal solution.

Reeds and cane from irrigation canals are an interesting biomass source. They grow fast, are often considered weeds, and can be harvested as a fuel source.

Moisture content considerations

• Fresh reeds/cane: 50-70% moisture (very wet)
• Field-dried (cut and left): Can reach 20-30% after 1-2 weeks in Mendoza’s dry climate
• Harvested dry: If cut at end of season when naturally dry, 15-20% possible

The key is harvest timing and method. In Mendoza’s dry climate, you can significantly reduce drying costs by cutting and field-drying before collection.

Equipment for 5 tons per hour with fresh material (50% moisture)

• Harvesting and collection: You’ll need equipment to cut and collect—this is outside our scope but critical.
• Drying: For fresh material at 50% moisture, you need substantial drying. For 5 tons per hour output, you need about 10 tons per hour wet feed. A large rotary drum dryer with biomass burner. FOB $300,000-500,000.

Equipment for 5 tons per hour with field-dried material (20% moisture)

• Drying: Much smaller dryer needed, or possibly none if material is consistently 15-18%. For 5 tons per hour output with 20% moisture input, you need about 6 tons per hour wet feed. A medium dryer. FOB $150,000-250,000.
• Grinding: Reeds need grinding to 3-5mm particle size. They’re fibrous but not as tough as wood. A hammer mill with 110-132kW motor. FOB $25,000-40,000.
• Pellet mill: For 5 tons per hour of reeds, the CZLH678 with 185kW motor produces 4-5 tons per hour, so you’d need two units or the CZLH768 with 250kW motor for 6-8 tons per hour. Two CZLH678 units give you redundancy. FOB $130,000-160,000 for two.
• Cooling: Counter-flow cooler sized for 5 tons per hour. FOB $25,000-40,000.
• Screening: To remove fines. FOB $15,000-25,000.
• Bulk loading: For fuel. FOB $15,000-30,000.

Total FOB range:

• With fresh material drying: $600,000-900,000
• With field-dried material: $400,000-650,000

Landed in Mendoza:

• Fresh: $800,000-1,200,000 all in
• Field-dried: $550,000-900,000 all in

Why reeds for fuel

Reeds and cane have:

• Fast growth, renewable annually
• No cultivation cost (they grow wild)
• Cleaning irrigation canals is necessary anyway
• Good calorific value when dry (4,000-4,200 kcal/kg)
• Low ash compared to some biomass

Harvesting strategy

To minimize drying cost:

• Cut at end of growing season when plants are naturally drier
• Leave in windrows to field-dry for 1-2 weeks
• Collect when moisture is 20% or below
• Store under cover to prevent rewetting

Mendoza’s dry climate is perfect for this approach.

Ash content considerations

Reeds can have higher ash than wood, especially if they contain soil from harvesting. Proper harvesting technique (cutting above ground level) reduces ash.

Reed & cane pellet line in Argentina

A reed & cane pellet line in Argentina for your Mendoza operation needs to be designed for the material’s fibrous nature. The CZLH series with heavy-duty construction and forced feeding works well.

Seasonal operation

Reeds are typically harvested once or twice per year. You’ll need to process and store enough pellets for year-round use. Storage requirements: For 5 tons per hour running 2,000 hours per year (10,000 tons), you need about 20,000-25,000 m³ of covered storage.

The reed & cane pellet line in Argentina we design will match your harvest pattern and fuel needs. Send us your harvest volume and moisture data, and we’ll recommend the right configuration.

Sugarcane bagasse is the fibrous residue after juice extraction. It’s abundant in Tucumán and can be pelleted for various uses.

Bagasse nutritional value for feed

• Protein: 2-3% (very low)
• Fiber: 45-50% (high, but low digestibility)
• Energy: Low
• Digestibility: 30-40% without treatment

As a standalone feed, bagasse is poor. But it can be used as:

• A roughage source in maintenance rations
• A carrier for liquid supplements (molasses, urea)
• A component in blended feeds with higher-quality ingredients

Treatment options to improve feed value

• Urea treatment: Adding urea (4-5%) with moisture and allowing it to react improves digestibility and adds nitrogen.
• Enzyme treatment: Fibrolytic enzymes can break down some fiber.
• Blending with molasses: Bagasse + molasses is a common combination (bagasse absorbs molasses well).

Equipment for 8 tons per hour of bagasse pellets

• Drying: Bagasse from the mill is 45-50% moisture. For pelleting, you need 15-18% moisture. A large rotary drum dryer with biomass burner (using some bagasse as fuel). FOB $400,000-700,000.
• Grinding: Bagasse needs grinding to 3-5mm particle size. It’s fibrous but not abrasive. A hammer mill with 160-200kW motor. For 8 tons per hour output, you might need two mills. FOB $50,000-90,000.
• Treatment system: If using urea or other additives, you need a mixer with liquid addition. A horizontal mixer with 2-3 ton capacity. FOB $30,000-50,000.
• Pellet mill: For 8 tons per hour of bagasse, you need multiple units:
  • Two CZLH678 bagasse pellet machine units at 185kW each, each doing 4-5 tons per hour. Total FOB $130,000-160,000.
  • Two CZLH768 units at 250kW each, each doing 4-5 tons per hour on bagasse. Total FOB $160,000-200,000.
• Cooling: Counter-flow coolers sized for 8 tons per hour total. FOB $35,000-60,000.
• Screening: To remove fines. FOB $20,000-35,000.
• Bagging or bulk: For feed. FOB $20,000-40,000.

Total FOB range: $700,000-1,200,000 depending on treatment and automation.

Landed in Tucumán: $950,000-1,600,000 all in.

Alternative use: Fuel pellets

Bagasse is more commonly pelleted for fuel than feed. As a fuel, bagasse pellets have:

• Calorific value: 3,800-4,200 kcal/kg (similar to wood)
• Ash content: 2-4% (moderate)
• Good combustion characteristics

If fuel is your market, the equipment is similar but without the treatment system.

Why bagasse for feed

Despite low nutrition, bagasse can work in specific situations:

• As a roughage extender when other forages are expensive
• As a carrier for molasses-based supplements
• In integrated operations where bagasse is free

Market in Tucumán

Tucumán has cattle operations that might use bagasse-based feeds, especially if priced competitively with other roughages. The sugar mill itself might use bagasse pellets for process heat.

Sugarcane bagasse pellet machine for sale in Argentina

A sugarcane bagasse pellet machine for sale in Argentina needs to handle the material’s fibrous nature and variable moisture. The CZLH series with forced feeding is appropriate.

Integration with sugar mill

If you’re at a sugar mill, you have advantages:

• Bagasse is already on-site
• Steam for drying may be available
• Power for equipment is available
• You can use bagasse as dryer fuel

The economics improve significantly with integration.

The sugarcane bagasse pellet machine for sale in Argentina that we recommend depends on your target market—feed or fuel. Send us your bagasse volume and target use, and we’ll design accordingly.

Cassava residue (also called cassava pulp or bagasse) is the wet fibrous material left after starch extraction. It’s a significant waste stream in cassava processing.

Cassava residue characteristics

• Moisture: 70-80% fresh from processing (extremely wet)
• Protein: 2-3% (low)
• Starch: 10-20% residual (good for binding)
• Fiber: Moderate
• Drying requirement: Massive—you’re removing 60-70% water

Drying requirements for 10 tons per hour output

For 10 tons per hour of finished pellets at 12% moisture, starting from 75% moisture:

• Wet feed rate needed: About 35-40 tons per hour of wet residue
• Water to remove: 25-30 tons per hour
• Energy required: Approximately 15-20 million kcal per hour
• Dryer size: Very large—likely a multi-pass rotary drum or flash dryer

Drying options

• Rotary drum dryer: Proven for high-moisture materials. For this capacity, you’re looking at a 3-4 meter diameter drum, 20-25 meters long. FOB $800,000-1,500,000 depending on configuration.
• Flash dryer: Uses high-velocity hot air to dry material quickly. Can work for cassava residue but may need multiple stages. FOB $600,000-1,200,000.
• Screw press pre-dewatering: Before thermal drying, you can mechanically press the residue to reduce moisture from 75% to 55-60%. This significantly reduces thermal drying cost. A screw press adds $200,000-400,000 but saves on energy.

Complete line for 10 tons per hour

• Screw press (recommended): Reduces moisture. FOB $200,000-400,000.
• Drying: After pressing, you’re at 55-60% moisture, needing drying to 12%. Dryer sized for 22-25 tons per hour wet feed. FOB $600,000-1,000,000.
• Grinding: After drying, material needs grinding to 2-4mm particle size. A hammer mill with 160-200kW motor. FOB $30,000-50,000.
• Pellet mill: For 10 tons per hour of cassava residue, you need multiple units:
  • Two SZLH508 cassava pellet making machine units at 160kW each, each doing 5-6 tons per hour. Total FOB $80,000-100,000.
  • The SZLH series works because cassava residue has residual starch that binds well.
• Cooling: Counter-flow coolers sized for 10 tons per hour total. FOB $40,000-70,000.
• Screening: To remove fines. FOB $20,000-35,000.
• Bagging or bulk: For export. FOB $30,000-60,000.

Total FOB range: $1.0-1.8 million depending on dryer choice and automation.

Landed in Misiones: $1.4-2.5 million all in.

Why cassava residue for feed export

Cassava residue pellets can be used in:

• Ruminant feed (as energy source)
• Compound feed formulations
• Pet food (as carbohydrate source)
• Biofuel (ethanol production)

Export markets in Europe and Asia sometimes accept cassava-based feeds, especially if processed properly.

Nutritional enhancement

Consider adding:

• Urea (for protein)
• Molasses (for energy and palatability)
• Enzymes (to improve digestibility)

A mixer with liquid addition (add $30,000-50,000) lets you create value-added products.

Drying fuel source

Your dryer needs fuel. Options:

• Some of the cassava residue
• Natural gas (if available)
• Biomass from other sources
• The starch plant’s boiler (if integrated)

Using residue as fuel reduces disposal cost and provides energy.

Cassava residue pellet line in Argentina

A cassava residue pellet line in Argentina for your Misiones operation is a major investment but can turn a waste problem into a revenue stream. The key is efficient drying—without it, the economics don’t work.

We’ve supplied similar lines for cassava processing in Thailand and Brazil. The lessons learned:

• Mechanical pre-dewatering is essential
• Dryer must be sized generously
• Material tends to stick—need anti-bridging design
• Residual starch helps binding but can cause die plugging if too wet

The cassava residue pellet line in Argentina we design will be engineered for your specific residue characteristics. Send us samples with moisture analysis, and we’ll prepare a comprehensive proposal.

Barley straw from malting operations is an excellent source for animal bedding pellets. It’s clean, consistent, and available in large quantities.

CZLH678 for barley straw

The CZLH678 with 185kW motor produces 4-5 tons per hour on fibrous material. For 6 tons per hour, you’d need either:

• Two CZLH678 units (total 8-10 tons per hour capacity)
• One CZLH768 with 250kW motor (6-8 tons per hour)

CZLH768 specifications

• Motor: 250kW
• Output on straw: 6-8 tons per hour
• Die diameter: 762mm
• Includes anti-bridging feeder and force feeder

The CZLH768 is the better choice for 6 tons per hour—one machine, less floor space, simpler operation.

Complete line for 6 tons per hour

• Bale breaker: For barley straw bales. Barley straw is similar to wheat straw. FOB $30,000-50,000.
• Grinding: Straw needs grinding to 3-5mm particle size. A hammer mill with 132-160kW motor, with screens matched to straw. FOB $25,000-40,000.
• Drying: Barley straw from the field can be 15-20% moisture if baled dry. Malting operations often store straw indoors, keeping it dry. If your straw is consistently 15% or below, you might not need a dryer. If it’s wetter, a small straw dryer helps. For 6 tons per hour, a medium dryer if needed. FOB $100,000-180,000.
• Pellet mill: CZLH768 as above. FOB $78,000-96,000.
• Cooling: Counter-flow cooler sized for 6 tons per hour. FOB $25,000-40,000.
• Screening: To remove fines. FOB $15,000-25,000.
• Bagging or bulk: For bedding, often sold in bags. Automated bagging line. FOB $30,000-60,000.

Total FOB range:

• Without dryer: $200,000-320,000
• With dryer: $300,000-500,000

Landed in Buenos Aires province:

• Without dryer: $280,000-450,000 all in
• With dryer: $420,000-700,000 all in

Why barley straw for bedding

Barley straw pellets have advantages:

• High absorbency (straw absorbs well)
• Low dust compared to loose straw
• Easy handling and storage
• Consistent quality
• Can be sold in bags for retail or bulk for large operations

Market in Buenos Aires province

Buenos Aires province has:

• Horse stables (polo, racing, recreation)
• Poultry operations needing bedding
• Livestock operations
• Pet owners (small animal bedding)

With 6 tons per hour, you could supply a significant portion of the regional market.

Bedding pellet specifications

For animal bedding, you want:

• 6mm or 8mm pellets typically
• Pellets that break down when wet (not too hard)
• Low dust
• High absorbency

The CZLH768 with adjustable roller clearance lets you tune pellet hardness for bedding applications.

Barley straw pellet machine for sale in Argentina

A barley straw pellet machine for sale in Argentina for your malting operation is a natural fit—you have the straw, now you need to add value. The CZLH768 with forced feeding and heavy-duty construction is proven for straw.

Integration with malting operation

If you’re at a malt plant, you have:

• Consistent straw supply
• Power available
• Possibly heat for drying from your processes
• Existing logistics for distribution

This improves economics significantly.

The barley straw pellet machine for sale in Argentina that we recommend is the CZLH768 with stainless steel conditioner and forced feeder. Send us your straw volume and moisture, and we’ll confirm the configuration.

For a 10-ton per hour feed mill with an SZLH420 pellet mill, you need grinding capacity slightly ahead of the pellet mill to ensure the pellet mill never starves for material.

Hammer mill sizing for 10 tons per hour

For corn and sorghum grinding to typical feed particle size (2-4mm for poultry, 3-5mm for swine/cattle), you need:

Option A: Single large hammer mill

• 110-132kW motor
• Screen area: 1.2-1.5 m²
• Rotor diameter: 800-1,000mm
• Throughput: 10-12 tons per hour on corn at 3mm screen

This would be an SFSP series hammer mill, model SFSP112×38 or similar.

Option B: Two smaller hammer mills

• Two 75-90kW mills
• Total capacity 10-12 tons per hour
• Advantages: Redundancy, can run one while maintaining the other
• Disadvantages: Higher cost, more space

SFSP series specifications

For your 10-ton requirement, the SFSP112×38 with 110kW motor is the sweet spot.

Complete grinding system considerations

• Magnet: Before the hammer mill, install a magnetic separator to remove tramp metal. Add $2,000-4,000.
• Air assist: For fine grinding, a suction system improves capacity and reduces heat. Add $5,000-10,000.
• Cyclone and filter: To separate ground material from air. Add $8,000-15,000.
• Control: VFD on feeder to control mill load. Add $3,000-6,000.

Price range

SFSP112×38 hammer mill with motor, base, screens, and basic control: FOB $18,000-25,000 depending on motor brand and options.

Complete grinding system with magnet, air assist, cyclone, and controls: FOB $30,000-45,000.

Why this size matches the SZLH420

The SZLH420 pellet mill at 110kW produces 10-12 tons per hour. Your hammer mill should produce at least this rate to keep the pellet mill fed. The SFSP112×38 at 110kW gives you matching capacity.

Grinding considerations for different ingredients

• Corn: Grinds easily, good throughput
• Sorghum: Slightly harder, may reduce capacity 5-10%
• Wheat: Similar to corn
• Barley: Higher fiber, may reduce capacity 10-15%

If your formulation includes significant barley or other tough grains, consider the larger 132kW model for reserve capacity.

Feed hammer mill in Argentina

A feed hammer mill in Argentina for your Santa Fe operation needs to be reliable and efficient. The SFSP series is proven in feed mills worldwide, including many in Argentina.

Installation considerations

• Foundation: Hammer mills need substantial concrete foundations to control vibration
• Dust collection: Proper dust control is essential
• Maintenance access: Leave space for screen changes and hammer rotation

The feed hammer mill in Argentina we supply will be matched to your pellet mill capacity. Send us your target formulations and we’ll confirm sizing.

For grinding eucalyptus chips to 3-5mm particle size at 8 tons per hour, you need substantial power. Eucalyptus is dense and requires more energy than softwoods.

Power requirements for wood grinding

• Eucalyptus chips (dry, 10-12% moisture): 25-35 kWh per ton for 3-5mm grind
• For 8 tons per hour: 200-280 kW required

Hammer mill options

Option A: Single large hammer mill

• 250-315kW motor
• Rotor diameter: 1,200-1,400mm
• Screen area: 2.0-2.5 m²
• This is a large, heavy-duty industrial hammer mill

Option B: Two medium hammer mills

• Two 132-160kW mills
• Total capacity 8-10 tons per hour
• Advantages: Redundancy, easier maintenance
• Disadvantages: Higher cost, more space

Recommended model

For 8 tons per hour of eucalyptus, we recommend the SFSP138×75 with 250kW motor.

SFSP138×75 specifications

• Motor: 250kW
• Rotor diameter: 1,380mm
• Grinding width: 750mm
• Screen area: 2.8 m²
• Capacity on eucalyptus (3mm screen): 8-10 tons per hour at 10-12% moisture

Complete system requirements

• Feeder: Variable-speed feeder to control mill load. Add $5,000-8,000.
• Magnet: Heavy-duty magnetic separator for tramp metal. Add $4,000-6,000.
• Air assist: For wood grinding, air assist is essential to pull material through screens and keep mill cool. Add $10,000-15,000.
• Cyclone and filter: To separate ground material. Add $15,000-25,000.
• Control system: PLC with load monitoring. Add $8,000-12,000.

Price range

SFSP138×75 hammer mill with motor, base, screens: FOB $45,000-60,000.

Complete grinding system with feeder, magnet, air assist, cyclone, and controls: FOB $80,000-120,000.

Why eucalyptus requires more power

Eucalyptus is:

• Dense (specific gravity 0.6-0.8)
• Fibrous
• Can be abrasive
• Requires more energy to reduce particle size

Your hammer mill must be built for this duty—heavy-duty bearings, thick wear plates, and robust rotor construction.

Wood hammer mill for sale in Argentina

A wood hammer mill for sale in Argentina for your Misiones operation needs to be specified for eucalyptus specifically. The SFSP series with heavy-duty options is proven for this application.

Pre-grinding considerations

If your chips are large (>50mm), you might need a chipper or shredder before the hammer mill. This reduces hammer mill load and improves efficiency. A drum chipper with 90-110kW motor would add $30,000-50,000.

Maintenance expectations

For eucalyptus grinding:

• Hammer life: 200-400 hours depending on abrasiveness
• Screen life: 400-600 hours
• Bearings: Inspect every 1,000 hours

Plan for regular maintenance and keep spare hammers and screens in stock.

The wood hammer mill for sale in Argentina that we recommend for your eucalyptus operation is the SFSP138×75 with heavy-duty wear parts. Send us your chip size and moisture, and we’ll confirm the configuration.

This is an important distinction. Many people use the terms interchangeably, but they’re different machines for different purposes.

Bale breaker

A bale breaker is designed to:

• Take whole bales (round or square)
• Break the bale apart
• Produce a fluffed, aerated material
• Not necessarily reduce particle size significantly
• Output: Pieces 50-200mm typically

Bale breakers are the first step in processing baled material. They prepare the material for further size reduction.

Straw crusher (or straw grinder)

A straw crusher (often called a hammer mill for straw) is designed to:

• Take fluffed material from a bale breaker
• Reduce particle size to 3-10mm
• Produce uniform material ready for pelleting
• Output: Fine particles suitable for conditioning

For your alfalfa pellet line

You need both machines in sequence:

1. Bale breaker: Takes your square bales and produces fluffed alfalfa
2. Straw crusher/hammer mill: Grinds the fluffed alfalfa to 3-5mm for pelleting

Equipment recommendations for 6-8 tons per hour

Bale breaker (for square bales)

• Capacity: 8-10 tons per hour
• Motor: 22-37kW
• Features: Adjustable discharge rate, low maintenance
• FOB: $25,000-45,000

Straw crusher/hammer mill

• For alfalfa, you need a hammer mill with:
  • Motor: 110-132kW
  • Screens: 3-5mm
  • Heavy-duty hammers for fibrous material
• FOB: $25,000-40,000

Combined system

Some manufacturers offer integrated units that combine bale breaking and grinding, but separate machines give you more control and easier maintenance.

Why both are needed

If you put whole bales directly into a hammer mill:

• The mill will struggle with the density
• Screens may tear from bale strings/wire
• Production rate drops dramatically
• Energy consumption increases

The bale breaker first makes the material manageable, then the hammer mill does the fine grinding.

Straw crusher machine in Argentina

A straw crusher machine in Argentina for your alfalfa line needs to handle:

• Long-stem material without wrapping
• Consistent output for pelleting
• Screen changes for different particle sizes

The SFSP series hammer mills with heavy-duty rotor design work well for alfalfa.

Integration with your line

Typical flow:

1. Square bales → Bale breaker → Fluffed alfalfa
2. Fluffed alfalfa → Conveyor to hammer mill
3. Hammer mill → Ground alfalfa to pellet mill
4. Pellet mill → Pellets

Bale breaker considerations

For square bales, specify:

• Bale dimensions (length, width, height)
• Bale density (kg/m³)
• Whether bales have string or wire (wire damages equipment)

We can configure the bale breaker to handle your specific bales.

The straw crusher machine in Argentina for your operation is the second step in a two-step process. We can supply both machines as a package. Send us your bale specifications and we’ll recommend the right combination.

For processing whole trees and branches into chips at 15 tons per hour, you need a substantial drum chipper. This is heavy-duty equipment for industrial use.

Drum chipper sizing

For 15 tons per hour of wood chips from whole trees and branches, you need:

Recommended model: RD-X1600

• Drum diameter: 1,600mm
• Drum width: 1,200-1,500mm
• Motor: 250-315kW
• Feed opening: 800-1,000mm × 500-600mm (accepts whole trees up to 400-500mm diameter)
• Chip length adjustment: 15-40mm via knife settings
• Capacity: 15-25 tons per hour depending on material

Specifications

For your 15 tons per hour requirement, the RD-X1600 is the right choice.

Complete chipper system includes

• Infeed conveyor: Slatted belt or chain conveyor to feed material safely. Add $15,000-30,000.
• Discharge conveyor: To remove chips. Add $8,000-15,000.
• Control panel: With emergency stops and motor protection. Included in base price typically.
• Spare knives: Recommended to have on hand. Add $3,000-5,000 for a set.

Why drum chipper vs. disc chipper

Drum chippers are better for:

• Whole trees and large branches
• Material with some dirt or debris
• Higher throughput
• Less sensitive to material variations

Disc chippers are better for:

• Clean, uniform material
• Smaller diameter logs
• Applications requiring very consistent chip quality

For forestry waste in Corrientes with variable material, drum chipper is the right choice.

Chip quality considerations

For subsequent pelleting, you want chips that are:

• 20-40mm length (adjustable via knife settings)
• Consistent thickness (3-8mm)
• Clean (minimal fines)

The RD-X1600 with sharp knives produces good quality chips for hammer mills.

Power requirements

A 250-315kW chipper needs substantial electrical supply:

• 380-415V three-phase
• 500-600A at 380V
• Soft starter or VFD recommended to manage startup current

Rotary drum chipper for sale in Argentina

A rotary drum chipper for sale in Argentina for your Corrientes operation needs to be robust for forestry waste. The RD-X1600 is built for this duty.

Maintenance considerations

• Knife sharpening: Every 20-40 operating hours depending on material
• Knife replacement: Every 100-200 hours
• Anvil wear: Inspect regularly
• Bearings: Grease daily

Plan for regular maintenance and keep spare knives on hand.

The rotary drum chipper for sale in Argentina that we recommend is the RD-X1600 with heavy-duty construction and wear-resistant components. Send us your typical material size and we’ll confirm configuration.

For a 10-ton per hour feed mill, your mixer should be sized to supply the pellet mill consistently without long waits between batches.

Batch size calculation

Typical approach:

• Pellet mill runs at 10 tons per hour = 167 kg per minute
• Mixer cycle time (fill, mix, discharge) = 3-5 minutes for efficient operation
• Batch size = 167 kg/min × 4 minutes = 668 kg minimum

But you also need to consider:

• Pre-mix of small ingredients
• Multiple formulations
• Some reserve capacity

Recommended batch size: 1.5-2.0 tons

This gives you:

• Cycle time: 9-12 minutes at 10 tons per hour (fill 2-3 min, mix 3-5 min, discharge 1-2 min)
• Room for formulation changes
• Ability to run at higher rates if needed

Horizontal ribbon mixer specifications

For 1.5-2.0 ton batches:

For your 10-ton per hour line, the SLHY2.0 with 18.5-22kW motor is ideal.

Features to look for

• Liquid addition: Ports for adding molasses, oils, or water. Add $2,000-4,000.
• Micro-ingredient scales: For precise addition of vitamins and minerals. Add $5,000-10,000.
• Quick discharge: Large discharge gate for fast emptying (10-15 seconds).
• Liner: Stainless steel liner optional for corrosion resistance.
• Safety switches: On access doors.

Complete batching system

For efficient operation, you need more than just a mixer:

• Scale system: Load cells on mixer for accurate weighing. Add $3,000-5,000.
• Micro-ingredient system: Small bins with screw feeders for premix. Add $8,000-15,000.
• Control system: PLC with recipe management. Add $10,000-20,000.
• Surge bin: Below mixer to hold mixed feed before pellet mill. Add $5,000-8,000.

Total FOB for complete batching system: $45,000-80,000 depending on automation.

Why horizontal ribbon mixer

Horizontal ribbon mixers are standard in feed mills because they:

• Provide thorough mixing in 3-5 minutes
• Handle liquids well
• Discharge completely
• Easy to clean between batches
• Durable for continuous operation

Feed mixer machine in Argentina

A feed mixer machine in Argentina for your Córdoba feed mill needs to be reliable and accurate. The SLHY series is used in feed mills worldwide.

Integration with your line

Typical flow:

1. Grinding: Hammer mill grinds ingredients
2. Batching: Ground ingredients go to mixer, weighed
3. Micro-ingredients added
4. Liquids added
5. Mix for 3-5 minutes
6. Discharge to surge bin
7. Pellet mill draws from surge bin

The surge bin (1-2 tons capacity) ensures the pellet mill never waits for the mixer.

The feed mixer machine in Argentina we recommend is the SLHY2.0 with liquid addition and load cells. Send us your formulation details and we’ll provide a complete batching system design.

For organic fertilizer mixing, cycle times can be longer than for feed because:

• Composted manure is denser and may need more mixing
• Additives (bentonite, binders, other minerals) need thorough incorporation
• Moisture content may be higher

Typical cycle time for fertilizer mixing

• Fill time: 1-2 minutes depending on conveying system
• Mix time: 5-8 minutes for thorough blending of compost and additives
• Discharge time: 1-2 minutes
• Total cycle: 7-12 minutes

Batch size recommendation

For an organic fertilizer line, batch size depends on your pellet mill capacity. If you’re running a 5-6 tons per hour pellet mill (like FZLH350), you need:

• Pellet mill: 5-6 tons per hour = 83-100 kg per minute
• Mixer cycle: 8-10 minutes
• Batch size = 90 kg/min × 9 minutes = 810 kg minimum

Recommended batch size: 1.5-2.0 tons

This gives you:

• Cycle time: 15-20 minutes at 5-6 tons per hour
• Room for variations in density
• Ability to pre-mix different formulations

Mixer specifications for fertilizer

For organic fertilizer, consider:

Stainless steel liner: Recommended for fertilizer because compost can be corrosive. Add 20-30% to base price.

Additives mixing considerations

For fertilizer, you may add:

• Binders (bentonite, starch): Need even distribution
• Moisture (water, steam): For conditioning before pelleting
• Nutrient additives: To enhance fertilizer value

Your mixer should have liquid addition ports (add $2,000-4,000) for adding moisture or liquid binders.

Complete batching system for fertilizer

• Weighing system: Load cells on mixer. Add $3,000-5,000.
• Additive bins: Small hoppers for bentonite, etc. Add $5,000-10,000.
• Liquid addition system: Tank, pump, spray nozzles. Add $4,000-8,000.
• Control system: PLC for recipe management. Add $8,000-15,000.
• Surge bin: Below mixer for continuous pellet mill feed. Add $5,000-8,000.

Total FOB for complete fertilizer batching system: $40,000-80,000 depending on automation and stainless steel content.

Why cycle time matters

In fertilizer production, complete mixing is critical for:

• Consistent pellet quality
• Uniform nutrient distribution
• Proper binding
• Avoiding segregation in storage

Don’t rush the mix cycle. Test your materials to determine optimal mix time.

Ribbon mixer for pellet line for sale in Argentina

A ribbon mixer for pellet line for sale in Argentina for your Mendoza fertilizer operation needs to handle:

• Dense materials (compost)
• Abrasive additives
• Possible corrosion from organic matter

The SLHY series with stainless steel liner and heavy-duty construction is ideal.

Installation considerations

• Support structure: Mixers are heavy—ensure adequate support
• Access: Leave room for maintenance (ribbon removal, bearing access)
• Dust control: Enclose mixer with dust collection

The ribbon mixer for pellet line for sale in Argentina that we recommend is the SLHY2.0 with stainless steel liner and liquid addition. Send us your compost characteristics and additive list, and we’ll confirm the configuration.

When someone asks about a floating fish feed machine in Argentina, they’re usually thinking of the extruder. But the extruder is maybe 30-40% of what you actually need. A complete line includes raw material handling, grinding, mixing, extrusion, drying, cooling, coating, and packaging. Here’s what those packages run, based on what we’ve shipped to customers in Neuquén, Río Negro, and other parts of Argentina.

Single-screw floating fish feed lines (small to medium scale)

These are for trout farms, smaller tilapia operations, or startups testing the market. Single-screw gives you floating pellets with good control, just less flexibility than twin-screw for complex formulations.

200-400 kg/h complete line

For a small trout farm or hatchery operation, this size works. You’re looking at about $60,000-80,000 USD FOB for a complete line including:

• Hammer mill for grinding grains and protein meals
• Ribbon mixer for blending
• Single-screw extruder (DSP series) with conditioner
• Small belt dryer (gas or electric heated)
• Cooler and screener
• Manual bagging station

A fish feed production machine in Argentina at this scale will produce about 800-1,600 tons per year running one shift. Enough for a medium trout farm or to test the market before scaling up.

500-600 kg/h complete line

Stepping up to this range adds about $70,000-100,000 USD FOB. The difference is larger equipment across the board—bigger motor on the extruder, wider dryer, more automation. This is what we’ve supplied to several growing trout operations in Patagonia. They’re running 2,000-2,500 tons per year and selling to multiple farms.

800-1,000 kg/h complete line

At this level, you’re in serious commercial production. $130,000-170,000 USD FOB gets you:

• Larger hammer mill (75-90kW)
• 1-2 ton mixer with automated batching
• DSP-135B or similar single-screw extruder
• Multi-pass belt dryer sized for 1 ton per hour output
• Full cooling and screening system
• Semi-automated bagging

A fish feed machine in Argentina at this capacity can supply several farms or a medium-sized aquaculture operation. Production of 3,000-4,000 tons per year.

Twin-screw floating fish feed lines (commercial to industrial)

Twin-screw gives you better control over expansion, density, and water stability. Essential for shrimp feed, high-fat formulations, or operations that need to switch between different species frequently.

0.5-1.0 ton/h complete line

Entry-level twin-screw. $150,000-200,000 USD FOB for a complete line with:

• Fine-grind hammer mill
• Automated batching system
• SPHS75x2 twin-screw extruder
• Belt dryer
• Vacuum coater (for adding oils)
• Full cooling and screening
• Automated bagging

This is what many trout farms in Neuquén start with when they want room to grow. 2,000-4,000 tons per year capacity.

1.5-2.0 ton/h complete line

This is the sweet spot for commercial fish feed production. $440,000-560,000 USD FOB for:

• Larger grinding and mixing
• SPHS120x2 twin-screw extruder
• Industrial-scale belt dryer
• Vacuum coating system
• Automated controls with recipe management
• Bulk loading or automated bagging

A fish feed making machine in Argentina at this capacity can supply a significant portion of a region’s aquaculture needs. 6,000-8,000 tons per year.

3.0-4.0 ton/h complete line

Now we’re talking serious production. $530,000-650,000 USD FOB for:

• Heavy-duty grinding with multiple hammer mills
• Fully automated batching with micro-ingredients
• SPHS150x2 twin-screw extruder
• Large multi-pass dryer
• Complete post-extraction system
• Full automation and reporting

This is what we’ve supplied to major fish farms in Brazil and Chile. 12,000-16,000 tons per year capacity.

5.0-6.0 ton/h complete line

Industrial scale. $670,000-840,000 USD FOB. At this level, everything is larger—extruder motors in the 200-250kW range, dryers that fill a building, complete automation. Production of 20,000-24,000 tons per year.

8.0-10.0 ton/h complete line

Large industrial. $880,000-1,200,000 USD FOB. This is for major feed producers supplying multiple regions. 32,000-40,000 tons per year capacity. We’ve installed lines this size in several countries, including one in South America producing feed for salmon farms.

Above 10 tons per hour

For really large operations—40,000+ tons per year—prices go up from there. Each line is custom engineered for the site. We’ve done projects up to 20 tons per hour with prices to match.

What’s included (and what’s not)

The prices above are FOB Qingdao—loaded on the ship, ready for export. To get a floating fish feed machine price in Argentina delivered and installed, add:

• Ocean freight: $5,000-25,000 depending on container count (a complete line may fill 2-10 containers)
• Import duties: 14-18% of CIF value typically
• Port fees and customs clearance: $2,000-8,000
• Trucking to your site: $2,000-15,000 depending on distance from Buenos Aires
• Installation supervision: $15,000-50,000 depending on project size (2-8 weeks on-site)
• Civil works and building: Varies wildly—$100,000-1,000,000+ depending on existing infrastructure

So a $500,000 FOB line might land and install for $700,000-900,000 all in, depending on your site and shipping costs at the time.

What changes the price

The ranges above are wide for a reason. Here’s what moves the number:

• Automation: Manual controls vs. full PLC with recipe management can add $30,000-200,000
• Materials: Stainless steel where feed contacts (recommended for aquafeed) adds 20-30%
• Dryer configuration: Gas-fired, steam, or thermal fluid—each has different costs
• Coating system: Vacuum coater for high oil addition vs. simple drum coater
• Packaging: Manual bagging vs. automated palletizing
• Spare parts: Recommended kit adds 5-10%

What customers actually pay in Argentina

Based on recent shipments:

• A trout farm in Neuquén paid about $180,000 landed for a 500-600 kg/h single-screw line in 2023
• A shrimp farm in Chubut invested $650,000 landed for a 1.5-2.0 ton/h twin-screw line
• A major feed producer in Buenos Aires province spent $1.2 million landed for a 5-6 ton/h industrial line

These are real numbers from actual projects. The fish feed machine price in Argentina varies by location (freight to Patagonia costs more), by automation level, and by what buildings you already have.

These aren’t the only options

The configurations above cover the most common requests we get from Argentina—trout farms in Neuquén, tilapia operations in the north, shrimp farms in Chubut. But we also build:

• Lines for specialized species (pacu, surubí, etc.)
• Floating/sinking combo lines that can do both
• Compact lines for farms with space constraints
• High-automation lines for remote locations with limited skilled labor

The fish feed production machine in Argentina that’s right for you depends on your species, your volume, and your market. Tell us what you’re raising, how many tons per year you need, and whether you want floating, sinking, or both. Then we’ll give you a price on a complete line that actually fits your operation.

Every floating fish feed machine in Argentina we ship comes with process engineering support—we help you dial in your recipes, train your operators, and get production running smoothly. Because the equipment is only part of the story.

This comes up in every serious conversation. Someone sees a price online for a pellet mill and thinks that’s what the whole line costs. Then they get our quote and wonder why it’s three times higher. The answer is simple: a pellet mill alone won’t make feed. You need grinding, mixing, cooling, screening, and usually drying or conditioning. Here’s what complete lines actually run, based on what we’ve shipped to customers in Santa Fe, Córdoba, Buenos Aires province, and beyond.

Livestock and poultry feed lines (ring die)

These are for cattle, pigs, chickens, and other terrestrial animals. Grain-based formulations, with or without steam conditioning.

Small capacity: Flat die complete lines

For farms or small feed mills just starting out, flat die lines are an entry point. They’re simpler, cheaper, and can make both mash and pellets. Each line includes a hammer mill, horizontal mixer, and flat die pellet machine.

• 1 ton/h mash + 0.2-0.3 ton/h pellets: $12,000-15,000 FOB
• 1 ton/h mash + 0.5-0.6 ton/h pellets: $13,500-16,500 FOB
• 1 ton/h mash + 0.8-1.0 ton/h pellets: $14,500-17,500 FOB

These are what a small farmer in Córdoba might start with to make feed for 500-1,000 pigs or 10,000-20,000 chickens. Simple to operate, easy to maintain.

Medium to large capacity: Ring die complete lines

Once you’re past 1 ton per hour of pellets, ring die makes more sense. These lines include weighing systems, hammer mills, mixers, pellet mills, coolers, and screens. The wide price ranges reflect different levels of automation and whether you need things like liquid addition or micro-ingredient systems.

• 1-2 tons per hour: $30,000-60,000 FOB
  Basic line for a small feedlot or cooperative. Manual batching, simple controls.
• 3-4 tons per hour: $60,000-200,000 FOB
  This range jumps because at 3-4 tons, you start needing better automation. A simple line with manual controls might run $60,000-80,000. A fully automated line with PLC, liquid addition, and micro-ingredient scales hits $150,000-200,000.
• 5-6 tons per hour: $80,000-250,000 FOB
  Same story—automation drives the price. We’ve installed lines at both ends of this range. The $80,000 version works fine for a farm with good operators. The $250,000 version runs itself and generates production reports.
• 10 tons per hour: $170,000-320,000 FOB
  This is where commercial feed production starts. Feedlots in Santa Fe run lines like this. At $170,000, you get reliable equipment with basic automation. At $320,000, you get stainless steel conditioners, full PLC, and integration with your existing systems.
• 15 tons per hour: $240,000-400,000 FOB
  Regional feed mills. At this scale, you’re supplying multiple farms. The higher end includes automated batching from multiple bins, liquid coating systems, and full reporting.
• 20 tons per hour: $440,000-600,000 FOB
  Serious industrial production. Multiple pellet mills, complex automation, maybe dedicated lines for different species.
• 30 tons per hour: $600,000-700,000 FOB
  Large industrial. At this level, every component is heavy-duty, built for 24/7 operation.
• 40 tons per hour: $700,000-800,000 FOB
  Major feed plants. Multiple lines, extensive storage, complete automation.
• 60 tons per hour and above: $1,100,000+ FOB
  And up from there. We’ve done lines to 120 tons per hour for large integrators.

Alfalfa, grass, and straw pellet lines

These are for fibrous materials—alfalfa, native grasses, wheat straw, corn stalks. The equipment is similar to feed lines but with heavier construction and different die specs.

• 0.3-2 tons per hour: $37,000-62,000 FOB
  Small-scale. Good for a farm making its own forage pellets or testing the market.
• 0.5-4 tons per hour: $80,000-200,000 FOB
  Wide range because at 2-4 tons, you start needing bale breakers and possibly dryers. A line with just a grinder and pellet mill is at the low end. Add a bale breaker and you’re at $120,000. Add a dryer and you’re pushing $200,000.
• 1-6 tons per hour: $99,000-220,000 FOB
  Commercial scale. The $99,000 line assumes dry bales and simple operation. The $220,000 line includes automation and possibly a small dryer.
• 2-10 tons per hour: $190,000-400,000 FOB
  Serious production. At 10 tons, you need multiple pellet mills or a very large single unit. Dryers at this scale add significant cost.
• 3-12 tons per hour: $220,000-450,000 FOB
  Industrial. The range reflects whether you’re processing dry material (alfalfa from the field at 14-16%) or need drying capability.
• 4-20 tons per hour: $300,000-620,000 FOB
  Large industrial. Export-scale alfalfa pellet plants fall in this range. The high end includes full automation, multiple dryers, and bulk loading for containers.

What these numbers actually mean delivered to Argentina

The prices above are FOB Qingdao—loaded on the ship. To get a complete livestock feed line price in Argentina that’s ready to run, add:

• Ocean freight: $3,000-25,000 depending on container count
• Import duties: 14-18% of CIF value
• Port fees and clearance: $2,000-8,000
• Trucking to your site: $1,000-10,000 depending on distance from Buenos Aires
• Installation supervision: $10,000-50,000 depending on project size
• Civil works: Varies wildly—$50,000-500,000+ depending on existing buildings

A $200,000 FOB line might land and install for $280,000-350,000 all in, depending on your location and shipping costs.

What drives the price ranges

The same capacity can cost very different amounts because of:

• Automation: Manual controls vs. full PLC with recipe management can add $30,000-200,000
• Materials: Stainless steel for corrosive ingredients vs. carbon steel
• Dryers: A rotary drum dryer can cost more than the rest of the line combined
• Bale breakers: Essential for hay and straw, optional for grain
• Liquid addition: Molasses, fats, or water injection add cost
• Micro-ingredient systems: For vitamins and minerals in feed
• Building integration: Do you need conveyors, elevators, and distribution systems?

What customers in Argentina actually pay

Recent projects:

• A pig farm in Córdoba paid about $45,000 landed for a 1-2 ton/h basic feed line in 2023
• A feedlot in Santa Fe invested $180,000 landed for a 5-6 ton/h semi-automated line
• An alfalfa exporter in Buenos Aires province spent $450,000 landed for a 6-8 ton/h line with dryer and bale breaker
• A major poultry operation in Entre Ríos put in a 20 ton/h fully automated line for about $850,000 landed

These are real numbers from actual installations. The cost of a pellet making machine in Argentina—the complete line—varies by what you’re making and how much automation you need.

These aren’t the only configurations

The tables above cover the most common requests we get from Argentina—cattle feed in Santa Fe, poultry feed in Entre Ríos, alfalfa pellets in Buenos Aires province. But we also build:

• Floating fish feed lines with extruders and dryers
• Organic fertilizer lines for compost and manure
• Cat litter lines from paper or soy residue
• Wood pellet lines for biomass fuel
• Custom lines for unusual materials (coffee husks, peanut shells, rice hulls)

Every pellet production line for sale in Argentina we quote is custom-engineered for the customer’s raw materials and target products. Tell us what you’re making and how many tons you need, and we’ll give you a price on a line that actually fits your operation.

The numbers above are starting points—realistic ranges for typical configurations. Your actual cost will depend on your specific needs.

We get this question from sawmills in Misiones, furniture factories in Posadas, forestry operations in Corrientes—anywhere there’s wood waste that needs a home. The short answer is: it depends on what you have already.

If you’ve got dry sawdust and a building, you can start for less than $100,000. If you’re starting from wet logs and bare land, you’re looking at millions. Here’s what the ranges look like for complete plants, from the smallest portable setups to industrial export facilities.

Small-scale biomass pellet plants (0.2-3.0 tons per hour)

These are for sawmills, furniture factories, or farms that want to pellet their own waste. The wide price ranges reflect whether you need drying and how much automation you want.

0.2-0.3 tons per hour
$20,000-140,000 USD FOB

At the low end, this is a basic setup: a small hammer mill and a flat die pellet machine. You’re processing dry material only—planer shavings at 10-12% moisture. At the high end, you get a small ring die system with a cooler and screener, maybe even a tiny dryer if your material’s wet. We’ve sold both ends of this range in Argentina. The $20,000 version goes to small furniture shops. The $140,000 version goes to sawmills that want to do it right.

0.3-0.5 tons per hour
$28,000-160,000 USD FOB

Same story—wider range because of drying. If you’ve got dry sawdust, you’re at the bottom. If you need to dry green chips from 50% moisture, you’re at the top. A small rotary drum dryer costs more than the pellet mill.

1.0-1.2 tons per hour
$39,000-220,000 USD FOB

This is where commercial production starts. At $39,000, you’re getting a basic ring die line with hammer mill, pellet mill, cooler, and screener—but you’re supplying your own dry material. At $220,000, you get a complete system with a dryer, automated controls, and bagging equipment. This is what a medium sawmill in Misiones might install to process its sawdust and shavings.

1.5-2.0 tons per hour
$56,000-270,000 USD FOB

At this capacity, you’re either running two shifts or one shift at high volume. The low end assumes you’ve already got dry material and just need the pelletizing line. The high end includes everything—chipper, dryer, grinder, pellet mill, cooler, screener, bagging, and full automation.

2.5-3.0 tons per hour
$78,000-350,000 USD FOB

This is serious production. At $78,000, you’re processing dry planer shavings only. At $350,000, you’re taking whole logs through a chipper, drying them, grinding, pelleting, and bagging. The dryer alone at this capacity runs $100,000-150,000.

3.0-4.0 tons per hour
$95,000-430,000 USD FOB

Now we’re talking about plants that can supply multiple customers or export containers. The range is wide because of raw material. If you’re a sawmill with dry waste, you’re at the bottom. If you’re a forestry operation with wet logs, you’re at the top.

Medium to large-scale biomass pellet plants (5-24 tons per hour)

These are for commercial pellet producers, cooperatives, and export operations. At these capacities, drying is almost always required unless you have an unusual source of dry material.

5.0-6.0 tons per hour
$160,000-570,000 USD FOB

This is where export production starts. A 5-ton line running 6,000 hours per year makes 30,000 tons—enough for several containers per week. At $160,000, you’re processing dry sawdust from a sawmill. At $570,000, you’re processing wet forestry waste with a large dryer, complete automation, and bulk loading for containers.

6.0-8.0 tons per hour
$190,000-690,000 USD FOB

Same logic, bigger numbers. The dryer for this capacity is a major piece of equipment—3-4 meters in diameter, 20+ meters long, with a biomass burner consuming 1-2 tons of fuel per hour. That’s where the cost goes.

10-12 tons per hour
$280,000-1,100,000 USD FOB

This is industrial scale. At $280,000, you’re processing dry material from multiple sawmills with minimal automation. At $1.1 million, you’ve got a complete plant with wet material handling, drying, grinding, multiple pellet mills, automated controls, and full export infrastructure. We’ve installed plants in this range in several countries, including one in South America processing eucalyptus.

12-15 tons per hour
$470,000-1,430,000 USD FOB

Now you’re in the big leagues. At this scale, you’re looking at multiple pellet mills—probably three or four units running in parallel. The plant layout matters as much as the equipment. Material flow, storage, and logistics become critical.

20-24 tons per hour
$570,000-2,100,000 USD FOB

Major industrial facilities. At $570,000, you’re getting basic equipment with minimal automation, processing dry material only. At $2.1 million, you’ve got a world-class plant with everything automated, stainless steel where it matters, and capacity to supply large export contracts.

Higher capacities
Above 24 tons per hour, prices scale from there. We’ve done plants up to 40 tons per hour. At that level, you’re talking $3-5 million for a complete facility with all the infrastructure.

What these numbers actually mean in Argentina

The prices above are FOB Qingdao—loaded on the ship. To get a biomass pellet plant price in Argentina that’s ready to produce, add:

• Ocean freight: $5,000-50,000 depending on container count (a complete plant may fill 5-30 containers)
• Import duties: 14-18% of CIF value
• Port fees and clearance: $3,000-15,000
• Trucking to your site: $2,000-20,000 depending on distance from Buenos Aires
• Installation supervision: $15,000-100,000 depending on project size
• Civil works and buildings: $100,000-2,000,000+ depending on what you have already

A $500,000 FOB plant might land and install for $700,000-1,000,000 all in. A $2 million plant could be $2.8-3.5 million by the time you’re producing pellets.

What drives the wide ranges

The same capacity can cost very different amounts because of:

• Raw material moisture: Dry material (10-15%) needs no dryer. Wet material (45-55%) needs a dryer that can cost more than the rest of the line combined.
• Raw material form: Sawdust can go straight to the pellet mill. Logs need chipping. Bark needs different handling.
• Automation: Manual controls vs. full PLC with remote monitoring can add $50,000-500,000.
• Buildings: Do you have existing structures or need to build from scratch?
• Power supply: Do you have adequate electrical capacity or need transformers?
• Finished product: Bagged pellets need bagging lines. Bulk pellets for export need bulk loading systems.
• Certification: ENplus or other quality certifications require additional equipment and controls.

What customers in Argentina actually pay

Recent biomass projects:

• A furniture factory in Posadas paid about $85,000 landed for a 0.5 ton/h line processing their dry planer shavings in 2023
• A sawmill cooperative in Misiones invested $450,000 landed for a 3 ton/h line with a small dryer
• A forestry operation in Corrientes spent $1.2 million landed for a 8 ton/h export-oriented plant
• A major pellet exporter in Buenos Aires province put in a 15 ton/h facility for about $2.5 million all in

These are real numbers from actual installations. The cost of a pellet making machine in Argentina—the complete plant—varies by what you’re processing and how much infrastructure you need.

These are ranges, not quotes

Every biomass pellet plant is custom-engineered for the customer’s raw materials and site conditions. The numbers above are realistic ranges for typical configurations, but your actual cost will depend on:

• What kind of wood you’re processing (pine, eucalyptus, mixed)
• What form it’s in (sawdust, chips, logs, bark)
• What moisture it has (dry from kilns or wet from the forest)
• What capacity you need (tons per hour, hours per year)
• What your site looks like (existing buildings, power, access)
• What your target market is (local, industrial, export)

Tell us what you have and what you want to make, and we’ll give you a price on a biomass pellet plant in Argentina that actually fits your operation. The ranges above are starting points for conversation.

This comes up constantly. Someone sees a price online for a pellet mill and thinks that’s what they need to spend. Then they realize they also need a hammer mill, a mixer, a cooler, and a bunch of other stuff. Here’s the real picture for poultry feed, based on what we’ve shipped to layer operations in Entre Ríos, broiler farms in Córdoba, and feedlots in Santa Fe.

Single poultry feed pellet machines (ring die)

If you already have your grain ground and mixed, or if you’re buying premixed mash from somewhere else, a single pellet mill might be all you need. These are the machines themselves—the SZLH series we’ve covered before—with feeder, conditioner, and basic controls.

1-40 tons per hour range

A single animal feed pellet machine price in Argentina varies by size:

• 1-2 tons per hour (SZLH250): $6,500-8,500 FOB
• 3-4 tons per hour (SZLH320): $15,000-18,000 FOB
• 5-6 tons per hour (SZLH350): $26,000-32,000 FOB
• 10-12 tons per hour (SZLH420): $28,000-33,000 FOB
• 15-16 tons per hour (SZLH508): $38,000-46,000 FOB
• 20-22 tons per hour (SZLH558): $45,000-55,000 FOB
• 30-33 tons per hour (SZLH678): $60,000-74,000 FOB
• 38-40 tons per hour (SZLH768): $72,000-88,000 FOB

These are just the pellet mills. To get a chicken feed machine price in Argentina that’s ready to run, you need to add:

• Ocean freight: $2,000-8,000 depending on size
• Import duties: 14-18% of CIF value
• Port fees: $1,000-3,000
• Trucking to your site: $500-3,000 depending on location

So a $30,000 pellet mill lands in Argentina for roughly $40,000-45,000 depending on exchange rates and freight at the time.

Complete poultry feed production lines

If you’re starting from raw grain—corn, sorghum, wheat—and you want to make complete feed, you need the whole line. This includes:

• Receiving and cleaning: To remove trash and foreign material
• Grinding: Hammer mill to reduce grain to target particle size
• Batching and mixing: Scales and mixer for precise formulation
• Pellet mill: To compress mash into pellets
• Cooling: To bring pellet temperature down
• Screening: To remove fines
• Bagging or bulk loading: To package finished feed

Complete line prices: 1-120 tons per hour

The range is wide because of automation, materials, and whether you need things like liquid addition or micro-ingredient systems.

• 1-2 tons per hour: $30,000-60,000 FOB
  Basic line for a small farm. Manual batching, simple controls, carbon steel construction.
• 3-4 tons per hour: $60,000-120,000 FOB
  Medium farm or small cooperative. At $60,000, you get basic equipment. At $120,000, you get automation and maybe liquid addition.
• 5-6 tons per hour: $80,000-180,000 FOB
  Commercial scale. The range reflects whether you need automated batching and PLC controls.
• 8-10 tons per hour: $120,000-250,000 FOB
  Serious production. At $120,000, you’re doing manual batching. At $250,000, you’ve got full automation, multiple bins, and recipe management.
• 10-15 tons per hour: $170,000-320,000 FOB
  Regional feed mill scale. This is what we supply to feedlots in Santa Fe. The low end is basic but reliable. The high end includes stainless steel conditioners, automated micro-ingredient addition, and full reporting.
• 15-20 tons per hour: $240,000-400,000 FOB
  Industrial. Multiple pellet mills or one very large unit. Extensive automation.
• 20-30 tons per hour: $440,000-600,000 FOB
  Major feed plants. At this scale, you’re looking at dedicated lines for different species or age groups.
• 30-40 tons per hour: $600,000-800,000 FOB
  Large industrial. Everything is heavy-duty, built for 24/7 operation.
• 40-60 tons per hour: $700,000-1,100,000 FOB
  Very large facilities. Multiple lines, extensive storage, complex automation.
• 60-120 tons per hour: $1,100,000+ FOB
  And up from there. We’ve done lines at this scale for major integrators. Each one is custom-engineered.

What a poultry feed line actually includes

A complete poultry feed making machine price in Argentina depends on what you put in it. For layers or broilers, you typically need:

• Hammer mill: For corn and other grains. 22-250kW depending on capacity.
• Mixer: Horizontal ribbon, 0.5-5 tons per batch.
• Pellet mill: With conditioner for steam addition.
• Cooler: Counter-flow, sized for your output.
• Screener: To remove fines.
• Control system: From manual to fully automated.

Optional but common:

• Liquid addition: For molasses, fats, or water.
• Micro-ingredient system: For vitamins and minerals.
• Metal detector: To protect dies.
• Bagging line: Manual or automated.
• Bulk loading: For feed trucks.

What customers in Argentina actually pay

Recent poultry feed projects:

• A layer farm in Entre Ríos with 30,000 birds paid about $45,000 landed for a 1-2 ton/h basic line in 2023. They grind their own corn, buy protein concentrate, and make complete layer feed.
• A broiler operation in Córdoba with 100,000 birds invested $120,000 landed for a 3-4 ton/h semi-automated line. They run multiple formulations for different ages.
• A feedlot in Santa Fe that also does poultry put in a 10 ton/h fully automated line for about $280,000 landed. They sell feed to smaller farms in the region.
• A major poultry integrator in Buenos Aires province built a 30 ton/h facility for around $900,000 landed, with multiple lines for starters, growers, and layers.

These are real numbers from actual installations. The animal feed making machine price Argentina—whether a single mill or complete line—varies by what you need to make.

Why the ranges are so wide

The same capacity can cost very different amounts because of:

• Automation: Manual controls vs. PLC with recipe management can add $30,000-200,000
• Materials: Stainless steel for corrosive ingredients adds 20-30%
• Liquid addition: Molasses systems add $10,000-30,000
• Micro-ingredients: Automated vitamin addition adds $15,000-40,000
• Building integration: Do you need conveyors, elevators, and distribution systems?
• Existing infrastructure: Do you have power, buildings, and grain storage?

These aren’t the only options

The configurations above cover poultry feed—layers and broilers. But we also build lines for:

• Swine feed: Different particle size requirements, often need liquid addition
• Cattle feed: Higher fiber, may need different die specs
• Rabbit feed: High-fiber formulations need CZLH series
• Fish feed: Extrusion lines, not just pellet mills
• Turkey and game bird feed: Specialty formulations

Every poultry feed making machine in Argentina we quote is custom-engineered for the customer’s formulations and production goals. The numbers above are realistic ranges for typical poultry operations. Tell us what birds you’re feeding, how many tons per day, and what ingredients you have access to. Then we’ll give you a price on a line that actually fits your farm.

This question comes from feed millers in Santa Fe, sawmill operators in Misiones, and farmers everywhere in between. A hammer mill seems simple—motor, rotor, hammers, screens—but the price can range from a few thousand dollars to well over fifty thousand for the same motor size. The difference is what you’re grinding and how hard the machine has to work.

The SFSP series water-drop hammer mills are what we ship most often to Argentina. They’re called water-drop because the grinding chamber shape lets material fall through screens evenly—no dead zones where fines accumulate. They handle grain, corn, sorghum, wood chips, straw, and just about anything else you’d put through a hammer mill.

Here’s what they cost and what they’ll actually produce.

SFSP56×40 (37kW)

• Rotor diameter: 560mm
• Grinding width: 400mm
• Speed: 2980 rpm
• Hammer tip speed: 88 m/s

Output by material:

• Grain (corn, sorghum, wheat): 3-5 tons per hour
• Grass/straw: 0.8-1.0 tons per hour
• Wood chips: 0.5-0.6 tons per hour

Price range: $6,000-9,000 FOB

This is what a small farm in Córdoba might use for their own feed. At $6,000, you get basic construction with carbon steel hammers. At $9,000, you get hard-faced hammers, better bearings, and maybe a stainless steel screen. A feed hammer mill in Argentina at this size handles grain easily but struggles with wood or straw at high volume.

SFSP66×60 (55kW and 75kW options)

• Rotor diameter: 660mm
• Grinding width: 600mm
• Speed: 2980 rpm
• Hammer tip speed: 103 m/s

Output by material:

Price range: $8,000-14,000 FOB

The 55kW version runs $8,000-11,000. The 75kW version runs $11,000-14,000. This is what a medium feedlot in Santa Fe might use—enough capacity for 5-6 tons per hour of grain grinding, matching a 3-4 ton per hour pellet line. A wood hammer mill for sale Argentina at this size starts to make sense for sawmills with moderate volumes.

SFSP66×80 (75kW and 90kW options)

• Grinding width: 800mm

Output by material:

Price range: $12,000-18,000 FOB

Now we’re getting into serious capacity. The 90kW version with 8-10 tons per hour on grain is what a commercial feed mill uses. The same machine grinding wood chips does 2-2.5 tons per hour—shows you how much harder wood is on equipment. A heavy duty hammer mill Argentina at this size needs good bearings and balanced rotors to run continuously.

SFSP66×100 (90kW and 110kW options)

• Grinding width: 1000mm

Output by material:

Price range: $15,000-22,000 FOB

This is where industrial grinding starts. A 110kW hammer mill in Argentina doing 10-12 tons per hour on grain can keep a 5-8 ton per hour pellet mill running continuously. The wider grinding chamber means better distribution of material, less wear on individual hammers.

SFSP66×120 (110kW, 132kW, and 160kW options)

• Grinding width: 1200mm

Output by material:

Price range: $18,000-28,000 FOB

At 160kW, you’re moving 20+ tons per hour of grain—enough for a 10-15 ton per hour feed mill. The industrial hammer mill Argentina market uses these for large-scale feed production and biomass grinding.

SFSP66×150 (160kW, 185kW, and 220kW options)

• Grinding width: 1500mm

Output by material:

Price range: $25,000-45,000 FOB

This is heavy industrial. The 220kW version grinding 30-32 tons per hour of grain is what major feed plants use. For wood pellets, the same machine does 5-8 tons per hour depending on motor size and screen selection. A grain crusher machine Argentina at this scale is a serious investment but pays off in volume.

What the numbers actually mean for different materials

The table shows why a hammer mill for grain costs less per ton than one for wood. Look at the SFSP66×150 with 185kW:

• Grain: 25-27 tons per hour
• Grass/straw: 5-6 tons per hour
• Wood chips: 5-6 tons per hour

Same motor, same machine, different screens—but wood and straw take 4-5 times more energy per ton than grain. That’s why a wood hammer mill for sale Argentina needs heavier construction, better bearings, and more frequent maintenance than a grain grinder.

What drives the price ranges

The same model can cost very different amounts because of:

• Motor brand: WEG, Siemens, or Chinese domestic—20-40% price difference
• Hammers: Standard carbon steel vs. hard-faced or tungsten carbide
• Screens: Perforated plate vs. wire mesh, stainless vs. carbon steel
• Bearings: Standard vs. heavy-duty with longer life
• Rotor balancing: Dynamic balancing for high-speed operation adds cost
• Wear liners: Replaceable liners in grinding chamber add cost but extend machine life
• Control: Simple starter vs. VFD for speed control

What customers in Argentina actually pay

Recent hammer mill sales:

• A small farm in Córdoba paid about $7,500 landed for a 37kW SFSP56×40 in 2023, grinding corn for their own pigs
• A feed mill in Santa Fe invested $15,000 landed for a 90kW SFSP66×80 with hard-faced hammers
• A sawmill in Misiones paid $22,000 landed for a 132kW SFSP66×120 grinding eucalyptus chips for their pellet line
• A major poultry operation in Entre Ríos spent $38,000 landed for a 220kW SFSP66×150 with full automation

These are real numbers from actual installations. The hammer mill price in Argentina varies by what you’re grinding and how hard you run it.

What fits your operation

The SFSP series handles material up to 50mm (about 2 inches) going in, and with screen changes, you can get output from 0.5mm powder up to 20mm coarse grind. For:

• Feed mills: Grain grinding, 3-5mm particle size typical
• Biomass plants: Wood chips to 3-5mm for pelletizing
• Fertilizer lines: Compost and manure grinding
• Straw processing: For bedding or feed

A feed hammer mill Argentina for grain is different from one for wood or straw. Tell us what you’re grinding, what particle size you need, and how many tons per hour. Then we’ll recommend the right SFSP model and give you a price that fits your material.

The ranges above are starting points. Your actual cost depends on what you’re putting through it.

This comes up constantly from sawmills in Misiones, furniture factories in Corrientes, and biomass operations everywhere. A chipper seems simple—feed in wood, get out chips—but the price range from $16,000 to $100,000 tells you there’s more to it. The difference is what size material you’re feeding and how many tons you need per hour.

The XPJ series drum chippers are what we ship most often to Argentina. They take logs, branches, slabs, and offcuts and turn them into 20-40mm chips—perfect for pellet lines, particleboard plants, or biomass boilers. Screen size can be customized if you need different chip lengths.

Here’s what they cost and what each model handles.

Small to medium chippers (for sawmill offcuts and branches)

XPJ500x230

• Infeed opening: 500mm × 230mm
• Max log diameter: 230mm (about 9 inches)
• Main motor: 75kW
• Feed motors: 4kW + 3kW
• Hydraulic pump: 0.75kW
• Discharge belt: 1.5kW
• Flying knives: 2
• Stationary knives: 1

Price range: $16,000-25,000 FOB

This is what a small sawmill in Misiones might use for their slabs and edgings. At $16,000, you get basic configuration. At $25,000, you get better knife steel, heavier construction, and maybe a variable-speed feed. A rotary drum chipper for sale Argentina at this size handles material up to 230mm diameter—most sawmill waste fits.

XPJ680x300

• Infeed opening: 680mm × 300mm
• Max log diameter: 300mm (about 12 inches)
• Main motor: 90kW
• Feed motors: 4kW + 3kW
• Hydraulic pump: 1.1kW
• Discharge belt: 1.5kW
• Flying knives: 2
• Stationary knives: 1

Price range: $22,000-32,000 FOB

Stepping up to handle 300mm logs. This is what a medium operation needs if they’re processing bigger material. The wider infeed lets you feed multiple smaller pieces at once, increasing throughput.

XPJ500x500

• Infeed opening: 500mm × 500mm
• Max log diameter: 500mm (about 20 inches)
• Main motor: 110kW
• Feed motors: 4kW + 3kW
• Hydraulic pump: 1.5kW
• Discharge belt: 2.2kW
• Flying knives: 6
• Stationary knives: 2

Price range: $28,000-40,000 FOB

Now we’re getting serious. Six knives instead of two means more chips per revolution and better chip quality. The square infeed handles big material—whole small logs or multiple pieces at once. A wood drum chipper Argentina at this size starts to make sense for commercial operations.

Large industrial chippers (for whole logs and high volume)

XPJ850x500

• Infeed opening: 850mm × 500mm
• Max log diameter: 500mm (about 20 inches)
• Main motor: 132kW
• Feed motors: 4kW + 3kW
• Hydraulic pump: 1.5kW
• Discharge belt: 2.2kW
• Flying knives: 10
• Stationary knives: 3

Price range: $35,000-55,000 FOB

Ten knives means this machine chews through material fast. The 850mm wide infeed lets you stack multiple pieces. This is what a forestry operation uses for whole trees after delimbing. A wood chipper machine Argentina at this capacity can feed a 3-5 ton per hour pellet line.

XPJ1200x500

• Infeed opening: 1200mm × 500mm
• Max log diameter: 500mm (about 20 inches)
• Main motor: 200kW
• Feed motors: 5.5kW + 4kW
• Hydraulic pump: 1.5kW
• Discharge belt: 2.2kW
• Flying knives: 14
• Stationary knives: 3

Price range: $55,000-80,000 FOB

Now we’re talking serious production. 200kW main motor, 14 knives, 1200mm wide infeed—this machine processes whole logs as fast as you can feed them. The 500mm diameter limit means you’re delimbing to about 20 inches, but you can feed multiple smaller logs side by side.

XPJ850x600

• Infeed opening: 850mm × 600mm
• Max log diameter: 600mm (about 24 inches)
• Main motor: 200kW
• Feed motors: 7.5kW + 7.5kW
• Hydraulic pump: 3kW
• Discharge belt: 2.2kW
• Flying knives: 14
• Stationary knives: 3

Price range: $65,000-100,000 FOB

The biggest in this series. Handles 600mm diameter logs—that’s 24 inches, about as big as you’ll see in planted forests. The dual 7.5kW feed motors give you serious pulling power for heavy material. This is for major forestry operations and large pellet plants. A drum wood chipper Argentina at this size can feed an 8-10 ton per hour pellet line.

What the numbers actually mean for different operations

The price ranges are wide because of:

• Knife quality: Standard steel vs. tungsten carbide for abrasive woods like eucalyptus
• Frame construction: Standard vs. heavy-duty for continuous operation
• Feed system: Hydraulic vs. mechanical, variable speed options
• Controls: Basic starter vs. PLC with auto-feed control
• Wear parts: Replaceable liners in the chute add cost but extend life
• Motor brand: WEG, Siemens, or Chinese domestic—20-40% price difference

What customers in Argentina actually pay

Recent chipper sales:

• A sawmill in Misiones paid about $22,000 landed for an XPJ500x230 in 2023, processing their slabs and edgings for a small pellet line
• A furniture factory in Corrientes invested $35,000 landed for an XPJ500x500 to chip their offcuts for boiler fuel
• A forestry operation in Entre Ríos paid $65,000 landed for an XPJ850x500 to process plantation thinnings
• A major pellet plant in Buenos Aires province spent $95,000 landed for an XPJ850x600 with tungsten carbide knives for eucalyptus

These are real numbers from actual installations. The wood chipper machine price in Argentina varies by what you’re processing and how much volume you need.

What fits your operation

The XPJ series takes logs, branches, slabs, and offcuts up to the diameter shown, and produces 20-40mm chips. Screen options let you adjust chip size for different applications:

• Pellet lines: 20-30mm chips ideal for hammer mills
• Particleboard: 20-40mm depending on process
• Biomass boilers: 30-50mm acceptable
• Mulch: Can go larger with screen changes

For a rotary drum chipper for sale Argentina, tell us:

• What material you’re chipping (softwood, hardwood, mixed)
• What size material (max diameter, length)
• How many tons per hour you need
• What chip size you want

Then we’ll recommend the right XPJ model and give you a price that fits your operation. The ranges above are starting points—your actual cost depends on what you’re putting through it.

This comes up all the time from feed mills in Santa Fe, poultry operations in Entre Ríos, and fertilizer plants everywhere. A mixer seems straightforward—put stuff in, mix it up, take it out—but the price range from $2,800 to $36,500 tells you there’s more to it. The difference is batch size, material type, and whether you need stainless steel for corrosive ingredients.

Here’s what different mixers cost and what each one handles.

Small mixers for farms and starter operations ($2,800-6,500)

ZGH Series Drum Mixers (for premixes and small batches)

These are simple, low-cost drum mixers for small batches—perfect for a farm making its own premixes or a small operation just starting out.

These are what a small farm in Córdoba might use for mixing vitamins and minerals into a base mix. At $2,800, you get basic construction. At $6,500, you get better seals, maybe stainless steel contact parts. A chicken feed mixer machine Argentina at this size is for premixes, not complete feed.

Medium mixers for commercial feed mills ($6,500-22,000)

SLHY Series Single-Shaft Ribbon Mixers

These are workhorses of small to medium feed mills. Ribbon mixers are gentle on ingredients and give good mixing in 3-5 minutes.

The SLHY1.0A with pneumatic discharge at $9,500-12,500 is what a small feed mill in Santa Fe might use for 2-3 ton per hour production. The SLHY7.5L at $28,000-36,500 handles 3000 kg batches—enough for a 10-15 ton per hour line. A horizontal feed mixer Argentina at this scale is standard for commercial feed production.

SLHJ Series Single-Shaft Paddle Mixers

Paddle mixers are more aggressive than ribbons—better for materials that need more shear or have higher fat content.

The stainless steel versions (B models) are for corrosive ingredients—things like fish meal, mineral mixes, or high-moisture materials. A paddle mixer Argentina at this size handles everything from poultry feed to organic fertilizers.

SLHSJ Series Twin-Shaft Paddle Mixers

These mix faster—typically 60-90 seconds per batch—and handle larger particles better. The twin-shaft design gives more intensive mixing.

A twin-shaft mixer is what larger feed mills use for high-volume production. The SLHSJ4.0A at $24,000-32,000 handles 2000 kg batches in under 2 minutes—perfect for a 10-15 ton per hour line. A ribbon mixer for pellet line for sale Argentina at this capacity keeps up with even the biggest pellet mills.

Specialty mixers for specific applications ($18,000-45,000)

STHJ Series High-Speed Molasses Mixers

For adding liquid molasses to cattle feed—this is a continuous mixer that sits above the pellet mill. Handles the sticky stuff that regular mixers can’t.

These are specialized—you only need one if you’re adding significant molasses to cattle feed. A feed mixer machine Argentina for molasses has to run at high speed to break up the sticky stuff and distribute it evenly.

What drives the price ranges

The same model can cost very different amounts because of:

• Material: Carbon steel vs. stainless steel adds 30-60% for corrosive applications
• Discharge: Manual (cheaper) vs. pneumatic (faster, automated)
• Motor brand: WEG, Siemens, or Chinese domestic—20-40% difference
• Seals and bearings: Standard vs. food-grade vs. chemical-resistant
• Liquid addition ports: For adding molasses, fats, or water
• Controls: Simple starter vs. PLC integration with your batching system

What customers in Argentina actually pay

Recent mixer sales:

• A small farm in Córdoba paid about $4,200 landed for a ZGH-300 drum mixer in 2023, mixing premixes for their pigs
• A poultry operation in Entre Ríos invested $11,000 landed for an SLHY1.0A with pneumatic discharge for their 2 ton per hour feed line
• A feed mill in Santa Fe paid $19,000 landed for an SLHSJ2.0A twin-shaft mixer for their 5 ton per hour operation
• A major cattle feedlot in Buenos Aires province spent $38,000 landed for an STHJ50x275 molasses mixer with stainless steel construction

These are real numbers from actual installations. The feed mixer machine price in Argentina varies by what you’re mixing and how much automation you need.

What fits your operation

For a standard poultry or swine feed line:

• 1-2 tons per hour: SLHY1.0A (500 kg batches) or SLHJ1A
• 3-5 tons per hour: SLHY2.5L (1000 kg) or SLHSJ2.0A
• 5-10 tons per hour: SLHY5.0L (2000 kg) or SLHSJ4.0A
• 10-15 tons per hour: SLHY7.5L (3000 kg) or multiple units

For specialty applications:

• Premixes: ZGH drum mixers
• High-fat or sticky materials: SLHJ paddle mixers
• Fast mixing: SLHSJ twin-shaft
• Molasses: STHJ high-speed continuous mixers

A feed mixer machine in Argentina for standard feed is different from one for molasses or minerals. Tell us what you’re mixing, what batch size you need, and whether you need stainless steel for corrosive ingredients. Then we’ll recommend the right model and give you a price that fits your operation.

The ranges above are starting points. Your actual cost depends on what you’re putting through it.

This question comes from every sawmill in Misiones thinking about pellets, every rice mill in Corrientes with wet husks, and every alfalfa exporter in Buenos Aires province who wants to extend their season. A dryer is often the most expensive piece of equipment in a pellet line—sometimes costing more than everything else combined. The price range from $15,000 to $180,000 tells you there’s a lot of variation.

The difference is diameter, length, and whether you need single-pass or triple-pass design. Here’s what different rotary drum dryers cost and what they handle.

Small dryers for low-volume operations ($15,000-35,000)

φ0.6×6 (0.6m diameter, 6m length)

• Diameter: 0.6 meters
• Length: 6 meters
• Layers: Single
• Speed: 3-12 rpm adjustable
• Inlet temperature: 400-500°C
• Outlet temperature: 70-80°C

Price range: $15,000-22,000 FOB

This is what a small furniture factory in Posadas might use to dry their planer shavings for a small pellet line. At 0.6m diameter, it’s not moving huge volume—maybe 300-500 kg per hour of water removal depending on material. A rotary drum dryer Argentina at this size is for operations processing 1-2 tons per hour of wet material.

φ0.8×8 (0.8m diameter, 8m length)

• Diameter: 0.8 meters
• Length: 8 meters
• Layers: Single
• Speed: 3-12 rpm adjustable
• Inlet temperature: 400-500°C
• Outlet temperature: 70-80°C

Price range: $22,000-35,000 FOB

Stepping up to 0.8m diameter gives you more capacity—maybe 800-1,200 kg per hour of water removal. This is what a medium sawmill in Misiones might use for their green sawdust if they’re processing 2-3 tons per hour of pellets.

Medium dryers for commercial production ($35,000-80,000)

φ1.2×12 (1.2m diameter, 12m length)

• Diameter: 1.2 meters
• Length: 12 meters
• Layers: Single
• Speed: 3-12 rpm adjustable
• Inlet temperature: 400-500°C
• Outlet temperature: 70-80°C

Price range: $35,000-50,000 FOB

Now we’re getting serious. 1.2m diameter with 12m length gives you residence time to dry material from 50% down to 12% at maybe 2-3 tons per hour of finished product. This is what a commercial pellet plant in Misiones would use for 3-5 tons per hour output. A sawdust drying machine Argentina at this size is a real piece of industrial equipment.

φ1.5×15 (1.5m diameter, 15m length)

• Diameter: 1.5 meters
• Length: 15 meters
• Layers: Single
• Speed: 3-12 rpm adjustable
• Inlet temperature: 400-500°C
• Outlet temperature: 70-80°C

Price range: $50,000-70,000 FOB

1.5m diameter moves serious air and material. This size handles 4-6 tons per hour of finished pellets from wet sawdust or wood chips. A wood chip dryer Argentina at this capacity starts to make sense for export-oriented operations.

φ1.8×18 (1.8m diameter, 18m length)

• Diameter: 1.8 meters
• Length: 18 meters
• Layers: Single
• Speed: 3-12 rpm adjustable
• Inlet temperature: 400-500°C
• Outlet temperature: 70-80°C

Price range: $60,000-85,000 FOB

The jump to 1.8m diameter gives you significant volume. This dryer can handle 6-8 tons per hour of finished pellets from wet material. A rotary dryer machine in Argentina at this size is for major commercial operations.

φ1.8×20 (1.8m diameter, 20m length)

• Diameter: 1.8 meters
• Length: 20 meters
• Layers: Single
• Speed: 3-12 rpm adjustable
• Inlet temperature: 400-500°C
• Outlet temperature: 70-80°C

Price range: $70,000-95,000 FOB

Longer drum means more residence time, which means you can dry wetter material or run at higher capacity. 8-10 tons per hour of finished product is realistic.

Large dryers for industrial production ($95,000-180,000+)

φ1.8×36 (1.8m diameter, 36m length)

• Diameter: 1.8 meters
• Length: 36 meters
• Layers: Single
• Speed: 3-12 rpm adjustable
• Inlet temperature: 400-500°C
• Outlet temperature: 70-80°C

Price range: $95,000-130,000 FOB

Now we’re talking serious length. 36 meters gives you lots of drying time—good for materials that are harder to dry or for high capacity. 10-15 tons per hour of finished product.

φ1.8×12×3C (1.8m diameter, 12m length, 3-pass)

• Diameter: 1.8 meters
• Length: 12 meters (effective length much longer due to three passes)
• Layers: Triple-pass
• Speed: 3-12 rpm adjustable
• Inlet temperature: 400-500°C
• Outlet temperature: 70-80°C

Price range: $85,000-120,000 FOB

Triple-pass dryers are more efficient in footprint. The material travels back and forth three times inside the same drum, so 12m of physical length gives you 36m of drying path. This is what you want when space is tight. Capacity similar to the 1.8×36 single-pass but in a shorter package.

φ1.8×24×3C (1.8m diameter, 24m length, 3-pass)

• Diameter: 1.8 meters
• Length: 24 meters
• Layers: Triple-pass
• Speed: 3-12 rpm adjustable
• Inlet temperature: 400-500°C
• Outlet temperature: 70-80°C

Price range: $130,000-180,000+ FOB

The biggest in this series. Triple-pass, 24m physical length giving 72m of drying path. This handles 15-20+ tons per hour of finished product. A rotary drum dryer Argentina at this scale is for major industrial operations—large pellet plants, ethanol facilities, or massive biomass operations.

What the numbers actually mean for different materials

The same dryer performs differently on different materials:

• Sawdust: Dries relatively easily, good airflow
• Wood chips: Need more residence time due to piece size
• Bagasse: Can be sticky, needs careful temperature control
• Manure: High ammonia, needs corrosion-resistant construction
• Alfalfa: Heat-sensitive, needs lower temperatures
• Rice husks: Abrasive, needs wear protection

That’s why the price ranges are wide—a dryer for abrasive rice husks needs different internals than one for softwood sawdust.

What drives the price ranges

The same size can cost very different amounts because of:

• Material of construction: Carbon steel vs. stainless steel for corrosive materials
• Internal flights: Standard vs. customized for specific materials
• Drive system: Gear drive vs. chain drive
• Burner configuration: Included or separate, gas vs. biomass vs. diesel
• Insulation: Standard vs. heavy-duty for heat retention
• Controls: Basic thermostat vs. full PLC with moisture feedback
• Cyclones and fans: Included in price or separate

What customers in Argentina actually pay

Recent dryer sales:

• A furniture factory in Misiones paid about $28,000 landed for a φ0.8×8 dryer in 2023, drying their planer shavings for a small pellet line
• A sawmill cooperative in Corrientes invested $58,000 landed for a φ1.5×15 dryer for their eucalyptus sawdust
• An alfalfa exporter in Buenos Aires province paid $95,000 landed for a φ1.8×20 dryer to extend their processing season
• A major pellet plant in Misiones spent $165,000 landed for a φ1.8×24×3C triple-pass dryer with biomass burner

These are real numbers from actual installations. The rotary drum dryer price in Argentina varies by what you’re drying and how much capacity you need.

What fits your operation

For a biomass pellet line, the rule of thumb is: your dryer needs to remove about 1 ton of water for every 1 ton of pellets you make, starting from 50-55% moisture. So for:

• 1-2 tons per hour pellets: φ1.2×12 or similar
• 3-5 tons per hour pellets: φ1.5×15 or φ1.8×18
• 5-8 tons per hour pellets: φ1.8×20 or φ1.8×36
• 8-12 tons per hour pellets: φ1.8×36 or triple-pass units
• 12-20 tons per hour pellets: φ1.8×24×3C or larger

A sawdust drying machine Argentina for wet sawmill waste is different from one for dry planer shavings. Tell us what material you’re drying, what moisture it starts at, what moisture you need to reach, and how many tons per hour you need. Then we’ll recommend the right dryer and give you a price that fits your operation.

The ranges above are starting points. Your actual cost depends on what you’re putting through it.

This question comes from all over—fruit processors in Mendoza drying apples and pears, fish farms in Neuquén drying extruded feed, vegetable operations in Buenos Aires province, even biomass plants looking for a gentler drying option. Belt dryers are different from rotary drums. They’re gentler, better for heat-sensitive materials, and they handle products that would break apart in a tumbling drum.

The price range from $13,000 to $250,000 tells you there’s a lot of variation. The difference is size, heat source, and whether you’re drying fish feed at 80°C or fruit at 50°C.

Here’s what different belt dryers cost and what they handle.

Small electric belt dryers for light duty ($13,000-45,000)

DHG-400 (Electric heating, 5-layer)

• Heating: Electric
• Total power: 40kW + 0.55kW×4 + 0.55kW (about 43kW total)
• Belt width: 0.8 meters
• Drying area: 13 square meters
• Layers: 5

Price range: $13,000-22,000 FOB

This is what a small fruit operation in Mendoza might use for drying apple slices or pear pieces. At 13 square meters of belt area with 5 layers, you get about 65 meters of total drying path. Gentle airflow, controlled temperature. A fruit dryer for sale in Argentina at this size handles maybe 100-200 kg per hour of finished product depending on moisture.

DHG-500 (Electric heating, 5-layer)

• Heating: Electric
• Total power: 50kW + 2.2kW×2 + 0.75kW (about 55kW total)
• Belt width: 1.0 meters
• Drying area: 21 square meters
• Layers: 5

Price range: $18,000-30,000 FOB

Wider belt, more area—21 square meters giving about 105 meters of drying path. This is what a medium fruit operation would use, or maybe a small fish feed operation drying extruded pellets. A vegetable dryer machine Argentina at this size handles 200-400 kg per hour.

DHG-1000 (Electric heating, 5-layer)

• Heating: Electric
• Total power: 70kW + 2.2kW×3 + 1.5kW (about 78kW total)
• Belt width: 1.2 meters
• Drying area: 43 square meters
• Layers: 5

Price range: $25,000-45,000 FOB

Now we’re getting serious. 43 square meters of belt area, 1.2m wide, 5 layers—about 215 meters of drying path. This is what a commercial fruit drying operation would use, or a fish feed plant making 500-800 kg per hour of extruded pellets. A belt dryer machine in Argentina at this capacity starts to make sense for serious production.

DHG-2000 (Electric heating, 5-layer)

• Heating: Electric
• Total power: 132kW + 2.2kW×3 + 1.5kW (about 140kW total)
• Belt width: 1.6 meters
• Drying area: 58 square meters
• Layers: 5

Price range: $35,000-60,000 FOB

The biggest electric version. 58 square meters of belt area, 1.6m wide—about 290 meters of drying path. This handles 1,000-1,500 kg per hour of finished product depending on material. A fish feed dryer for sale in Argentina at this scale works for medium commercial operations.

Medium to large steam-heated belt dryers ($45,000-250,000)

Steam heating is more efficient for large volumes and gives more precise temperature control. These are QHG series—same basic design but with steam coils instead of electric elements.

QHG-500 (Steam heating)

• Heating: Steam
• Total power: 2.2kW×2 + 0.75kW (just the fans and drives—steam heat separate)
• Belt width: 1.0 meters
• Drying area: 21 square meters
• Layers: 5

Price range: $45,000-80,000 FOB

Steam heat changes the game. The electrical power is just for moving air and belts—the heat comes from your boiler. Operating cost is lower if you already have steam. This is what a fruit processor with existing boiler capacity would choose. Same 21 square meters as the DHG-500, but with steam.

QHG-1000 (Steam heating)

• Heating: Steam
• Total power: 2.2kW×3 + 1.5kW
• Belt width: 1.2 meters
• Drying area: 43 square meters
• Layers: 5

Price range: $70,000-120,000 FOB

Steam version of the 43 square meter dryer. This is what a major fruit drying operation in Mendoza would use—think apple rings for export, pear pieces, maybe even dried tomatoes. A fruit and vegetable dryer for sale in Argentina at this scale can process tons per day.

QHG-2000 (Steam heating)

• Heating: Steam
• Total power: 2.2kW×3 + 1.5kW
• Belt width: 1.6 meters
• Drying area: 58 square meters
• Layers: 5

Price range: $100,000-180,000+ FOB

The largest in this series. 58 square meters of belt area, steam heated. This is industrial scale—think large fish feed plants, major fruit processors, or biomass operations needing gentle drying. A continuous belt dryer Argentina at this capacity can handle 2-3 tons per hour of finished product.

What the numbers actually mean for different applications

The same dryer performs differently on different materials:

• Fish feed pellets: Need gentle handling, 80-100°C, final moisture 8-10%
• Fruit slices: Lower temperature (50-70°C), longer time, final moisture 10-15%
• Vegetables: Similar to fruit, temperature sensitive
• Biomass: Can take higher heat, but belt dryers are gentler than rotary drums
• Cat litter: Some materials need low-temperature drying to preserve properties

What drives the price ranges

The same size can cost very different amounts because of:

• Heat source: Electric (simpler installation) vs. steam (requires boiler but cheaper to run)
• Belt material: Standard mesh vs. food-grade stainless steel
• Controls: Basic thermostat vs. PLC with humidity feedback
• Dehumidification: Standard fans vs. variable-speed for precise control
• Insulation: Standard vs. heavy-duty for heat retention
• Cleaning access: Standard vs. food-grade design with easy-clean features

What customers in Argentina actually pay

Recent belt dryer sales:

• A small fruit operation in Mendoza paid about $19,000 landed for a DHG-400 electric dryer in 2023, drying apple slices for the local market
• A trout farm in Neuquén invested $38,000 landed for a DHG-1000 to dry their extruded feed
• A vegetable processor in Buenos Aires province paid $65,000 landed for a QHG-500 steam dryer, tapping into their existing boiler
• A major fish feed plant in Chubut spent $155,000 landed for a QHG-2000 with stainless steel belts and full automation

These are real numbers from actual installations. A fish feed dryer machine in Argentina for extruded pellets is different from one for fruit slices. The food drying equipment in Argentina that’s right for you depends on what you’re drying.

What fits your operation

For fish feed (extruded pellets):

• 0.5-1 ton per hour: DHG-1000 or QHG-1000
• 1-2 tons per hour: DHG-2000 or QHG-2000
• 2-3+ tons per hour: Multiple units or custom larger design

For fruit and vegetables:

• Small farm/artisan: DHG-400 or DHG-500
• Medium commercial: DHG-1000 or QHG-1000
• Large industrial: QHG-2000 or multiple units

For biomass (gentle drying needed):

• Similar to fish feed sizing, but temperatures can be higher

A belt dryer for biomass for sale Argentina is gentler on material than a rotary drum—good for materials that would break apart or for applications where you want to preserve particle size.

These aren’t the only options

The DHG and QHG series cover the most common requests we get from Argentina—fish feed in Patagonia, fruit in Mendoza, vegetables in Buenos Aires province. But we also build:

• Multi-pass belt dryers for longer drying times
• Custom widths and lengths for specific capacity needs
• Hybrid heating for flexibility
• Sanitary design for food contact

A belt dryer machine Argentina for your operation needs to match your material, your volume, and your heat source. Tell us what you’re drying, what moisture it starts at, what moisture you need to reach, and how many tons per hour you need. Then we’ll recommend the right dryer and give you a price that fits your operation.

The ranges above are starting points. Your actual cost depends on what you’re putting through it.

This question comes from every pellet plant that’s tired of manual bagging, every feed mill that wants to look professional, and every fertilizer operation that needs consistent weights for export. A packing machine seems simple—weigh, fill, seal—but the price range from $5,000 to $20,000 tells you there’s more to it. The difference is speed, material type, and whether you’re bagging pellets, powder, or something in between.

The DCS series automatic packers are what we ship most often to Argentina. They handle everything from wood pellets to poultry feed to mineral premixes. Static accuracy of ±0.1% means your bags are consistently on weight—no more giving away product or risking short-weight complaints.

Here’s what different packing machines cost and what each one handles.

For pellets and granules (the most common request)

DCS-50W (Gravity feed, 2-3 bags/minute)

• Feed method: Gravity
• Speed: 2-3 bags per minute
• Power: 0.55kW + 0.37kW
• Accuracy: Static ±0.1%, Dynamic ±0.2%
• Air required: 0.4-0.6MPa, 1.5m³/h

Price range: $5,000-8,500 FOB

This is the entry-level machine for a small pellet operation. At 2-3 bags per minute, that’s 120-180 bags per hour—about 3-4.5 tons per hour if you’re doing 25kg bags. Perfect for a small wood pellet plant doing 1-2 tons per hour. A pellet packing machine for sale in Argentina at this price gets you out of manual bagging and into consistent weights.

DCS-50K (Gravity feed, 5-6 bags/minute)

• Feed method: Gravity
• Speed: 5-6 bags per minute
• Power: 0.55kW + 0.37kW
• Accuracy: Static ±0.1%, Dynamic ±0.2%
• Air required: 0.4-0.6MPa, 1.5m³/h

Price range: $6,500-11,000 FOB

Faster version of the same basic machine. 5-6 bags per minute is 300-360 bags per hour—7.5-9 tons per hour at 25kg. This matches a 3-5 ton per hour pellet line nicely. A feed bagging machine in Argentina at this speed keeps up with most medium-scale operations.

DCS-50P (Belt feed, 6-8 bags/minute)

• Feed method: Belt feeder
• Speed: 6-8 bags per minute
• Power: 1.5kW + 0.55kW + 0.37kW
• Accuracy: Static ±0.1%, Dynamic ±0.2%
• Air required: 0.4-0.6MPa, 1.5m³/h

Price range: $9,000-14,000 FOB

Belt feed is gentler on pellets—less breakage than gravity drop. 6-8 bags per minute is 360-480 bags per hour, 9-12 tons per hour. This is what a commercial wood pellet plant in Misiones would use for their 5-8 ton per hour line. A wood pellet bagging machine Argentina at this speed keeps the line moving without crushing product.

DCS-50P×2 (Dual belt feed, 10-12 bags/minute)

• Feed method: Dual belt feeders
• Speed: 10-12 bags per minute
• Power: 1.5kW×2 + 0.55kW + 0.37kW
• Accuracy: Static ±0.1%, Dynamic ±0.2%
• Air required: 0.4-0.6MPa, 1.5m³/h

Price range: $14,000-20,000 FOB

Two filling stations in one machine. 10-12 bags per minute is 600-720 bags per hour—15-18 tons per hour. This is for larger operations, 8-12 tons per hour pellet lines. A wood pellet packing system for sale in Argentina at this capacity needs good material handling upstream to keep both stations fed.

For powders and fine materials

DCS-50F (Screw feed for powders)

• Feed method: Screw conveyor (auger)
• Speed: 6-8 bags per minute
• Power: 1.5kW + 0.55kW + 0.37kW
• Accuracy: Static ±0.1%, Dynamic ±0.2%
• Air required: 0.4-0.6MPa, 1.5m³/h

Price range: $8,500-13,000 FOB

Powders are harder to bag than pellets—they aerate, they dust, they don’t flow the same. Screw feed controls the flow better. This is for things like:

• Ground grain (mash feed)
• Mineral powders
• Fertilizer fines
• Dusty materials

A feed packaging machine Argentina for mash feed needs screw feed to control flow and minimize dust.

DCS-50FB (Stainless steel, screw feed for premixes)

• Feed method: Screw conveyor
• Material: Stainless steel construction
• Speed: 6-8 bags per minute
• Power: 1.5kW + 0.55kW + 0.37kW
• Accuracy: Static ±0.1%, Dynamic ±0.2%
• Air required: 0.4-0.6MPa, 1.5m³/h

Price range: $12,000-18,000 FOB

Stainless steel is for corrosive materials—premixes with salts, organic fertilizers, anything that would rust carbon steel. Same specs as the DCS-50F but in stainless. This is what a premix plant in Santa Fe would use for bagging vitamin and mineral mixes.

What the numbers actually mean for different operations

The same machine performs differently depending on:

• Bag size: 20kg, 25kg, 40kg—speed changes with weight
• Material flow: Pellets flow easily, powders need help
• Dustiness: Dusty materials need better sealing
• Accuracy requirements: ±0.1% is tight—some operations don’t need that

What drives the price ranges

The same model can cost different amounts because of:

• Construction: Carbon steel vs. stainless steel adds 30-50%
• Controls: Basic PLC vs. touchscreen with recipe storage
• Sealing options: Heat sealer, sewing machine, or both
• Infeed configuration: Manual dump vs. automated conveyor interface
• Dust collection: Integrated or separate
• Load cells: Standard vs. high-accuracy for critical applications

What customers in Argentina actually pay

Recent packing machine sales:

• A small wood pellet plant in Córdoba paid about $7,200 landed for a DCS-50W in 2023, bagging 2 tons per hour for local sale
• A feed mill in Santa Fe invested $9,500 landed for a DCS-50K for their poultry feed line
• A fertilizer operation in Buenos Aires province paid $14,000 landed for a DCS-50F with screw feed for their compost pellets
• A major wood pellet exporter in Misiones spent $18,500 landed for a DCS-50P×2 dual-station machine for their 10 ton per hour line

These are real numbers from actual installations. An automatic weighing packing machine Argentina price varies by what you’re bagging and how fast you need to go.

What fits your operation

For pellets (wood, feed, fertilizer):

• 1-3 tons per hour: DCS-50W (2-3 bags/min)
• 3-6 tons per hour: DCS-50K (5-6 bags/min)
• 5-8 tons per hour: DCS-50P (6-8 bags/min)
• 8-12 tons per hour: DCS-50P×2 (10-12 bags/min)

For powders (mash feed, minerals):

• DCS-50F or DCS-50FB with screw feed

For corrosive materials (premixes, salt-based products):

• DCS-50FB stainless steel

An automatic bagging machine for sale Argentina for wood pellets is different from one for mineral powders. Tell us what you’re bagging, what bag size, and how many tons per hour. Then we’ll recommend the right DCS model and give you a price that fits your operation.

The ranges above are starting points. Your actual cost depends on what you’re putting through it.

This question comes from every pellet plant that’s ever had a customer complain about dust in the bottom of the bag. A screener seems simple—shake it, sort it, done—but the price range from $2,000 to $10,000 tells you there’s more to it. The difference is capacity, how many fractions you need, and whether you want vibrating or rotary motion.

The SFJZ and SFJH series are what we ship most often to Argentina. They sit after the cooler and before the bagger, removing fines and oversize so your customers get clean pellets.

Here’s what different screens cost and what each one handles.

Vibrating screens (SFJZ series) — simple, reliable, two-fraction separation

These are the workhorses of small to medium pellet lines. They use a simple vibrating motion to separate pellets from fines. The “C” in the model number tells you how many decks—1C gives you two fractions (fines and pellets), 2C gives you three fractions (fines, pellets, oversize).

SFJZ63×1C/2C

• Power: 0.18kW
• Capacity: 2-3 tons per hour
• Screen angle: 19° fixed
• Decks: 1 or 2 available

Price range: $2,000-3,500 FOB

This is what a small feed mill or wood pellet plant needs for 1-2 tons per hour production. At 2-3 tons per hour capacity, it matches a small line perfectly. A vibrating screen Argentina at this size is compact, cheap to run, and gets the fines out. The 1C version ($2,000-2,800) just removes fines. The 2C version ($2,800-3,500) also takes out oversize if you have occasional clumps.

SFJZ80×1C/2C

• Power: 0.18kW
• Capacity: 5-10 tons per hour
• Screen angle: 19° fixed
• Decks: 1 or 2 available

Price range: $3,000-4,500 FOB

Stepping up to handle 5-10 tons per hour—this is what a commercial feed mill in Santa Fe would use for their 3-5 ton per hour line (always size the screener bigger than the line so it’s not a bottleneck). Same 0.18kW motor, just a bigger screen area. A pellet grading screen Argentina at this capacity keeps up with most medium operations.

SFJZ100×1C/2C

• Power: 0.25kW
• Capacity: 10-20 tons per hour
• Screen angle: 19° fixed
• Decks: 1 or 2 available

Price range: $4,000-6,000 FOB

Now we’re talking serious volume. 10-20 tons per hour capacity means this handles a 5-10 ton per hour pellet line with room to spare. The 0.25kW motor is still tiny—screens don’t take much power, just enough to shake. A pellet screening machine for sale in Argentina at this size is for commercial pellet plants.

SFJZ125×1C/2C

• Power: 0.55kW × 2
• Capacity: 20-30 tons per hour
• Screen angle: 19° fixed
• Decks: 1 or 2 available

Price range: $5,500-8,000 FOB

Dual motors for the larger screen area. 20-30 tons per hour capacity handles a 10-15 ton per hour line easily. This is what a major feed mill or large wood pellet plant would use. A vibrating screen for pellets in Argentina at this scale is serious industrial equipment.

SFJZ150×2C

• Power: 0.55kW × 2
• Capacity: 40-50 tons per hour
• Screen angle: 19° fixed
• Decks: 2 (three fractions)

Price range: $7,000-10,000 FOB

The biggest in the vibrating series. 40-50 tons per hour capacity—this handles the largest pellet lines. The 2C deck gives you fines, pellets, and oversize separation. This is for major industrial operations, 20-30 tons per hour production.

Rotary screens (SFJH series) — gentler, three-fraction separation

These use a circular motion instead of straight vibration. Gentler on pellets, less breakage, and they typically give three fractions (fines, mids, overs) with the 2C and 3C models. More expensive but better for delicate products.

SFJH80×2C

• Power: 1.5kW
• Capacity: 3-6 tons per hour
• Rotary radius: 25-35mm adjustable
• Decks: 2 (three fractions)

Price range: $3,500-5,000 FOB

Entry-level rotary screener. 3-6 tons per hour capacity, 2 decks giving you fines, good pellets, and oversize. The rotary motion is gentler than vibration—better for feed pellets that might break apart with aggressive shaking.

SFJH100×2C/3C

• Power: 2.2kW
• Capacity: 4-8 tons per hour
• Rotary radius: 25-35mm adjustable
• Decks: 2 or 3 available

Price range: $4,500-6,500 FOB

2C gives three fractions, 3C gives four fractions (fines, small, medium, large). This is for operations that need to grade pellets by size—maybe different customers want different pellet lengths. A pellet grading screen Argentina with 3C lets you separate by size precisely.

SFJH125×2C/3C

• Power: 4kW
• Capacity: 8-15 tons per hour
• Rotary radius: 25-35mm adjustable
• Decks: 2 or 3 available

Price range: $6,000-8,500 FOB

Commercial scale. 8-15 tons per hour handles most medium to large pellet lines. The 4kW motor reflects the larger screen area and heavier construction.

SFJH150×2C/3C

• Power: 5.5kW
• Capacity: 15-20 tons per hour
• Rotary radius: 25-35mm adjustable
• Decks: 2 or 3 available

Price range: $7,500-10,500 FOB

Large industrial. 15-20 tons per hour capacity, 5.5kW motor. This is for major feed mills and large pellet plants.

SFJH185×2C/3C

• Power: 5.5kW
• Capacity: 30-40 tons per hour
• Rotary radius: 25-35mm adjustable
• Decks: 2 or 3 available

Price range: $9,000-12,000+ FOB

The biggest in the rotary series. 30-40 tons per hour capacity—this handles the largest pellet lines in Argentina. Same 5.5kW motor as the smaller one because rotary motion is efficient, just bigger screen area.

What the numbers actually mean for different products

The same screener performs differently depending on:

• Pellet size: 2mm pellets need different screens than 8mm
• Fines percentage: More fines means you need more screen area
• Oversize: Some lines produce more clumps than others
• Product value: High-value products justify better screening

What drives the price ranges

The same model can cost different amounts because of:

• Screen material: Standard wire mesh vs. stainless steel
• Decks: 1C (two fractions) vs. 2C/3C (three/four fractions)
• Construction: Carbon steel vs. stainless steel contact parts
• Drive: Standard motor vs. variable speed for adjustable motion
• Inlet/outlet: Standard vs. custom connections for your line

What customers in Argentina actually pay

Recent screener sales:

• A small feed mill in Córdoba paid about $2,800 landed for an SFJZ63×1C in 2023, cleaning fines from their 1 ton per hour poultry feed line
• A wood pellet plant in Misiones invested $4,200 landed for an SFJZ80×2C to remove both fines and oversize from their 3 ton per hour line
• A major feed mill in Santa Fe paid $6,800 landed for an SFJH125×2C rotary screener for their 8 ton per hour cattle feed line
• An alfalfa pellet exporter in Buenos Aires province spent $9,500 landed for an SFJH150×3C to grade pellets by size for different export markets

These are real numbers from actual installations. A vibrating screen for pellets in Argentina price varies by capacity and how many fractions you need.

What fits your operation

For simple fines removal:

• SFJZ series with 1C (two fractions)

For fines and oversize removal:

• SFJZ series with 2C (three fractions)

For grading by size (different markets want different pellet lengths):

• SFJH series with 2C or 3C

For delicate products that break easily:

• SFJH rotary series (gentler motion)

For a pellet screening machine for sale in Argentina, tell us:

• What product you’re screening (feed, wood, fertilizer)
• What capacity you need
• Whether you just want fines removal or size grading
• What pellet sizes you’re running

Then we’ll recommend the right model and give you a price that fits your operation. The ranges above are starting points. Your actual cost depends on what you’re screening.

This question comes from every first-time pellet plant operator who’s trying to save money. They see the price of a cooler and think, “Maybe I can just spread the pellets on the floor and let them cool overnight.” Then they learn the hard way that hot pellets in bags mean condensation, mold, and customer complaints.

A cooler isn’t optional. Pellets leave the die at 70-90°C. If you bag them hot, moisture condenses inside the bag and ruins your product. A proper counter-flow cooler brings them to within 3-5°C of room temperature in 6-15 minutes, using the cooling air efficiently.

The SKLF and SKLY series are what we ship most often to Argentina. Same basic design—counter-flow air, meaning the coldest air meets the coldest pellets, the warmest air meets the warmest pellets. Efficient, gentle, reliable.

Here’s what different coolers cost and what each one handles.

SKLF Series — Flap discharge coolers

These use a flap mechanism at the bottom to release cooled pellets in batches. Simple, reliable, fewer moving parts than rotary valves. Good for most feed and biomass applications.

SKLF11×11

• Capacity: 1-3 tons per hour
• Power: 1.5kW
• Cooling time: 6-15 minutes adjustable
• Outlet temperature: Room temperature + 3-5°C

Price range: $4,000-6,500 FOB

This is what a small farm in Córdoba needs for their 1-2 ton per hour feed line. At 1-3 tons per hour capacity, it matches small pellet mills perfectly. A pellet cooling machine for sale in Argentina at this size fits in a small space and does the job reliably.

SKLF14×14

• Capacity: 3-5 tons per hour
• Power: 1.5kW
• Cooling time: 6-15 minutes adjustable
• Outlet temperature: Room temperature + 3-5°C

Price range: $5,000-8,000 FOB

Stepping up to handle 3-5 tons per hour. Same 1.5kW motor, just a bigger cooling chamber. This is what a commercial feed mill in Santa Fe would use for their 3-4 ton per hour line. A counter flow cooler in Argentina at this capacity keeps pellets dry and customers happy.

SKLF17×17

• Capacity: 6-8 tons per hour
• Power: 1.5kW
• Cooling time: 6-15 minutes adjustable
• Outlet temperature: Room temperature + 3-5°C

Price range: $6,000-9,500 FOB

Still only 1.5kW—coolers are efficient because they just move air and operate discharge flaps. 6-8 tons per hour handles medium commercial lines. A pellet cooling machine in Argentina at this size is what a growing operation would install.

SKLF20×20

• Capacity: 8-13 tons per hour
• Power: 1.5kW
• Cooling time: 6-15 minutes adjustable
• Outlet temperature: Room temperature + 3-5°C

Price range: $7,000-11,000 FOB

Now we’re getting serious. 8-13 tons per hour capacity handles most commercial feed mills and medium wood pellet plants. Same 1.5kW motor, just bigger. The efficiency of counter-flow design means power doesn’t increase much with size.

SKLF24×24

• Capacity: 13-20 tons per hour
• Power: 2.2kW
• Cooling time: 6-15 minutes adjustable
• Outlet temperature: Room temperature + 3-5°C

Price range: $9,000-13,500 FOB

Power bumps to 2.2kW for the larger cooling area. 13-20 tons per hour handles major feed mills and large pellet plants. A counter flow pellet cooler for sale Argentina at this capacity is for serious commercial operations.

SKLF28×28

• Capacity: 25-30 tons per hour
• Power: 2.2kW
• Cooling time: 6-15 minutes adjustable
• Outlet temperature: Room temperature + 3-5°C

Price range: $12,000-16,500 FOB

Large industrial. 25-30 tons per hour capacity. Same 2.2kW motor—coolers are remarkably efficient. This is for major feed producers and large-scale pellet export operations.

SKLF32×32

• Capacity: 30-40 tons per hour
• Power: 2.2kW
• Cooling time: 6-15 minutes adjustable
• Outlet temperature: Room temperature + 3-5°C

Price range: $15,000-20,000+ FOB

The biggest in the flap discharge series. 30-40 tons per hour handles the largest pellet lines in Argentina. Still only 2.2kW—shows how efficient counter-flow design is.

SKLY Series — Rotary valve discharge coolers

Same capacities and power as the SKLF series, but with a rotary valve at the bottom instead of flaps. Rotary valves give continuous discharge rather than batch, which some operations prefer for downstream continuous processes.

SKLY11×11 through SKLY32×32

• Same capacities, same power, same cooling performance as the SKLF series
• Just different discharge mechanism (rotary valve vs. flaps)

Price ranges: Similar to SKLF series, about $500-1,000 more for the rotary valve mechanism

• SKLY11×11: $4,500-7,000
• SKLY14×14: $5,500-8,500
• SKLY17×17: $6,500-10,000
• SKLY20×20: $7,500-12,000
• SKLY24×24: $9,500-14,500
• SKLY28×28: $12,500-17,500
• SKLY32×32: $16,000-21,000+

The rotary valve gives you continuous, controlled discharge. Some operators prefer this because it meters pellets evenly to the next step (screener, bagger, or storage). A pellet cooler machine Argentina with rotary discharge is a little more expensive but worth it for automated lines.

What the numbers actually mean for different products

The same cooler works for:

• Feed pellets: 2-12mm, any formulation
• Wood pellets: 6-8mm, biomass applications
• Straw pellets: For bedding or fuel
• Fertilizer pellets: Organic or mineral

Cooling time adjustable from 6-15 minutes lets you tune for different pellet sizes and moisture content. Bigger pellets need longer cooling.

What drives the price ranges

The same model can cost different amounts because of:

• Discharge type: Flaps (SKLF) vs. rotary valve (SKLY)
• Construction: Carbon steel vs. stainless steel contact parts
• Insulation: Standard vs. insulated for cold climates
• Controls: Basic timer vs. PLC with temperature feedback
• Fan configuration: Standard vs. variable speed for precise control
• Air intake: Standard vs. filtered for dusty environments

What customers in Argentina actually pay

Recent cooler sales:

• A small feed mill in Córdoba paid about $5,200 landed for an SKLF11×11 in 2023, cooling their 1.5 ton per hour poultry feed line
• A wood pellet plant in Misiones invested $7,800 landed for an SKLF17×17 for their 5 ton per hour line
• A major feed mill in Santa Fe paid $11,500 landed for an SKLF24×24 for their 12 ton per hour cattle feed operation
• A large alfalfa pellet exporter in Buenos Aires province spent $17,000 landed for an SKLY28×28 with rotary discharge for their 25 ton per hour line

These are real numbers from actual installations. A counterflow pellet cooler Argentina price varies by capacity and discharge type.

What fits your operation

For most feed and biomass lines:

• 1-3 tons per hour: SKLF11×11 or SKLY11×11
• 3-5 tons per hour: SKLF14×14 or SKLY14×14
• 5-8 tons per hour: SKLF17×17 or SKLY17×17
• 8-13 tons per hour: SKLF20×20 or SKLY20×20
• 13-20 tons per hour: SKLF24×24 or SKLY24×24
• 25-30 tons per hour: SKLF28×28 or SKLY28×28
• 30-40 tons per hour: SKLF32×32 or SKLY32×32

For a pellet cooling machine for sale in Argentina, tell us:

• What product you’re cooling (feed, wood, fertilizer)
• What capacity you need
• Whether you prefer batch discharge (flaps) or continuous (rotary)

Then we’ll recommend the right model and give you a price that fits your operation. The ranges above are starting points. Your actual cost depends on what you’re cooling and how much automation you need.

This question comes from people who have access to multiple feedstocks—sawdust from a mill in Misiones this month, corn stalks from Córdoba after harvest, maybe some sunflower husks from a processor in Buenos Aires province next month. They want one machine that can handle whatever’s available and cheapest.

The short answer is yes—the MZLH series is designed for exactly this. It’s the same basic machine whether you’re running wood, straw, or agricultural residues. The difference is in the die selection and how you prepare the material going in.

The price range from $15,000 to $85,000 covers machines from 0.2 tons per hour up to 4 tons per hour. Here’s what they cost and what each one handles.

Small machines for mixed feedstocks (0.2-1.2 tons per hour)

MZLH320 (22kW)

• Output: 0.2-0.3 tons per hour
• Die diameter: 320mm
• Includes: Anti-bridging feeder, force feeder, control cabinet

Price range: $13,500-16,500 FOB

This is what a small furniture factory in Posadas might use for their sawdust and shavings. At 0.2-0.3 tons per hour, it’s not making anyone rich, but it turns waste into a saleable product. A wood pellet making machine in Argentina at this size is for testing the market or small-scale production.

What it handles:

• Sawdust (pine, eucalyptus)
• Planer shavings
• Rice husks (with harder dies)
• Coffee hulls
• Small volumes of agricultural residues

MZLH350 (37kW)

• Output: 0.3-0.5 tons per hour
• Die diameter: 350mm
• Includes: Anti-bridging feeder, force feeder, control cabinet

Price range: $18,500-22,500 FOB

Stepping up to 0.3-0.5 tons per hour. This is what a small farm in Córdoba might use for their corn stalks and wheat straw. A sawdust pellet mill for sale Argentina at this size gives you enough output to supply a few local customers.

What it handles:

• Corn stalks (with proper grinding)
• Wheat straw
• Barley straw
• Sawdust
• Peanut shells

MZLH420 (90kW)

• Output: 1.0-1.2 tons per hour
• Die diameter: 420mm
• Includes: Anti-bridging feeder, force feeder, control cabinet

Price range: $26,500-32,000 FOB

Now we’re getting into serious production. 1.0-1.2 tons per hour is enough for a commercial operation selling locally or filling the occasional container. A wood chips pellet machine in Argentina at this capacity handles most agricultural residues with the right preparation.

What it handles:

• Eucalyptus and pine chips (after hammer mill)
• Sunflower husks
• Soybean hulls
• Peanut shells
• Corn stalks
• Rice husks (with chromium dies)

Medium machines for serious production (1.5-3.0 tons per hour)

MZLH520 (132kW)

• Output: 1.5-2.0 tons per hour
• Die diameter: 520mm
• Includes: Anti-bridging feeder, force feeder, control cabinet

Price range: $40,000-49,000 FOB

This is the sweet spot for many operations. 1.5-2.0 tons per hour gives you 12-16 tons per day running one shift, 24-32 tons running two shifts. A forestry waste pellet line in Argentina at this capacity can supply multiple local customers or fill export containers regularly.

What it handles:

• Forestry waste (bark, branches, sawdust)
• Vineyard prunings (with chipper ahead)
• Orchard prunings (apple, pear)
• Sugarcane bagasse
• Cassava residue
• Reed and cane from irrigation channels

A eucalyptus wood pellet mill for sale at this size is what sawmills in Misiones install to process their waste.

MZLH678 (200kW)

• Output: 2.5-3.0 tons per hour
• Die diameter: 673mm
• Includes: Anti-bridging feeder, force feeder, control cabinet

Price range: $60,000-74,000 FOB

Now we’re talking serious commercial production. 2.5-3.0 tons per hour is 20-24 tons per day on one shift, 40-48 tons on two shifts. A straw pellet making machine in Argentina at this capacity handles wheat straw, barley straw, and corn stalks efficiently.

What it handles:

• All of the above, plus:
• RDF fuel (refuse-derived fuel with proper preparation)
• Industrial fuel from mixed waste streams
• High-volume agricultural residues

A corn stalk pellet making machine in Argentina at this size is what large farming operations install to monetize their crop residues.

Large machine for industrial production (3.0-4.0 tons per hour)

MZLH768 (315kW)

• Output: 3.0-4.0 tons per hour
• Die diameter: 762mm
• Includes: Anti-bridging feeder, force feeder, control cabinet

Price range: $72,000-88,000 FOB

The biggest in the MZLH series. 3.0-4.0 tons per hour is 24-32 tons per day on one shift, 48-64 tons on two shifts. A rice husk pellet machine in Argentina at this capacity can process the output of a large rice mill. A peanut shell pellet mill for sale Argentina at this size handles tons of shells from a major processor.

What it handles:

• Everything listed above, plus:
• High-volume industrial applications
• Large-scale agricultural residue processing
• Export-oriented production

A soybean hull pellet machine in Argentina at this capacity is what crush plants install to pelletize their hulls for feed.

What the same machine does with different materials

The MZLH series is the same basic machine whether you’re running wood or straw. But the output changes with material:

A sunflower husk pellet line in Argentina running on a MZLH520 might do 1.8-2.0 tons per hour. The same machine on rice husks might only do 1.0-1.2 tons per hour with the same motor.

What customers in Argentina actually use these for

• Misiones: Forestry waste, eucalyptus, pine — MZLH520 and MZLH678 for export pellets
• Córdoba: Corn stalks, peanut shells, wheat straw — MZLH420 and MZLH520 for animal bedding and fuel
• Buenos Aires province: Sunflower husks, soybean hulls — MZLH520 and MZLH678 for feed and fuel
• Mendoza: Vineyard prunings — MZLH420 for local heating
• Río Negro: Orchard prunings (apples, pears) — MZLH420 for packing shed heating
• Corrientes: Rice husks — MZLH520 with chromium dies
• Tucumán: Sugarcane bagasse — MZLH520 for feed and fuel
• Misiones: Cassava residue — MZLH420 for feed export

A vineyard prunings pellet machine for sale Argentina in Mendoza is the same machine as an orchard prunings pellet mill in Río Negro. Same basic equipment, different raw material preparation.

What about RDF and waste fuels?

The MZLH series can also handle:

• RDF fuel (refuse-derived fuel from municipal waste) — needs proper shredding and metal removal first
• Coal waste — with chromium dies and binder addition
• Garbage derived fuel — similar to RDF
• High heat energy pellets from various waste streams

A RDF fuel pellet making machine in Argentina needs a complete preparation line ahead of it—shredders, magnets, classifiers. The pellet mill itself is the same MZLH series, but the system around it is different.

What drives the price ranges

The same model can cost different amounts because of:

• Die metallurgy: Standard vs. chromium stainless for abrasive materials
• Motor brand: WEG, Siemens, or Chinese domestic
• Controls: Basic vs. PLC with VFD
• Construction: Carbon steel vs. stainless steel contact parts
• Spare parts kit: Included or separate

What fits your operation

If you have multiple feedstocks and want one machine to handle them all:

• 0.5-1 ton per hour: MZLH420
• 1-2 tons per hour: MZLH520
• 2-3 tons per hour: MZLH678
• 3-4 tons per hour: MZLH768

The key is material preparation. The same pellet making machine in Argentina can run sawdust today, corn stalks tomorrow, and sunflower husks next week—as long as you have the right grinding and drying ahead of it.

For a specific application:

• Wood pellets: MZLH series with standard dies
• Straw pellets: MZLH with higher compression dies
• Rice husks: MZLH with chromium stainless dies
• RDF/waste: MZLH with heavy-duty construction

A biomass pellet line Santa Fe in Argentina might be configured for corn stalks and wheat straw. A wood pellet plant for sale La Pampa might be set up for native vegetation. A wood pellet extruder Cordoba for sale could be running sawdust from local furniture factories. A biomass fuel pellet production line in Buenos Aires Argentina might process sunflower husks from the oilseed industry.

Same basic machine, different configurations.

These aren’t the only options

The MZLH series covers the most common biomass applications we see in Argentina. But we also build:

• Larger machines for higher capacities
• Stainless steel versions for corrosive materials
• Custom configurations for unusual feedstocks

Tell us what materials you have access to, what volumes you need to process, and what you want to make (fuel, bedding, feed). Then we’ll recommend the right MZLH model and give you a price that fits your operation.

The ranges above are starting points. Your actual cost depends on what you’re putting through it.