In organic fertilizer production, the granulator is a core piece of equipment that determines product quality and production efficiency. The flat die granulator, with its unique design, is the preferred equipment for organic fertilizer production lines. Its advantages are primarily reflected in five key areas.

First, it offers excellent adaptability to raw materials. Organic fertilizer raw materials are complex, with common materials like livestock and poultry manure, straw, and mushroom residue exhibiting widely varying moisture and fiber content. By adjusting the pressure of the rollers and the speed of the die, the flat die granulator can easily process raw materials with a moisture content of 15%-30%. This eliminates the need for over-drying or the addition of large amounts of binders, preserving the beneficial microorganisms in the raw materials while reducing pretreatment costs. This makes it particularly suitable for the diverse raw material production needs of small and medium-sized organic fertilizer plants.

Second, the granulation quality is stable and controllable. The flat die granulator utilizes a “fixed die plate, rotating pressure roller” extrusion granulation method, achieving a pellet forming rate exceeding 95%. Pellet diameter can be flexibly adjusted (typically between 2 and 12 mm) by replacing dies with different apertures, meeting the pellet specification requirements for various applications, such as seedling fertilizer and field fertilizer. The pellets have a moderate hardness and are resistant to breakage, making them easy to package, transport, and spread in the field, effectively enhancing the product’s market competitiveness.

Furthermore, they offer low energy consumption and operating costs. Compared to ring die granulators, flat die pelletizers utilize a lower motor power, reducing power consumption by 20%-30% at the same production capacity. Furthermore, their consumable parts (such as the pressure roller and die) are made of wear-resistant alloy, offering a service life of over 3,000 hours. Replacement frequency is low, and the cost of spare parts is only half that of ring die pelletizers, significantly reducing production line operating expenses over the long term.

Furthermore, they are easy to operate and maintain. The flat die granulator boasts a simple and compact structure, a small footprint, and a quick installation and commissioning cycle. Operators can easily master the machine after minimal training. Routine maintenance requires only the regular addition of lubricating oil and cleaning of residual material from the die holes, eliminating the need for complex technical expertise. This significantly reduces labor costs and is particularly suitable for small and medium-sized manufacturers facing a shortage of skilled personnel.

Overall, the flat die granulator, with its high adaptability, cost-effectiveness, and ease of operation, is an ideal choice for improving efficiency, reducing costs, and ensuring quality in organic fertilizer production lines. It provides strong support for the development of small and medium-sized organic fertilizer manufacturers.

In organic fertilizer production lines, flat die granulators typically process materials such as livestock and poultry manure and composted straw. These materials contain coarse fiber and experience large moisture fluctuations, which can easily lead to low granulation yields and loose pellets. To improve granulation efficiency, precise optimization in four key areas is necessary, taking into account the characteristics of the organic fertilizer material.

Raw material pretreatment must be tailored to the characteristics of the organic fertilizer. First, the moisture content should be controlled between 25% and 30%, which is the optimal range for organic fertilizer granulation. A moisture content too low can easily result in broken pellets, while a moisture content too high can cause die sticking and clogging. This can be adjusted by airing the material or adding dry straw powder. Secondly, the composted material should be pulverized to ensure that the coarse fiber particle size does not exceed 1/2 the die hole diameter to prevent fibers from wrapping around the die rollers and causing uneven extrusion. Uncomposted lumps should also be removed to prevent clogging. Additionally, 2% to 3% bentonite can be added as a binder to enhance pellet density without affecting the fertilizer’s efficiency.

Equipment adjustments require targeted optimization. Organic fertilizer materials have poor fluidity, so the die roller gap should be adjusted to 0.2-0.4mm, slightly wider than the standard setting, to prevent material from getting stuck. The roller speed should be reduced to 15-20r/min to allow ample time for the coarse fibers to be extruded and formed. For die orifice selection, a tapered die with a diameter of 4-8mm is preferred to reduce material resistance within the die and minimize the likelihood of blockage. Regularly clean the die orifice with a steel brush to remove residual fiber impurities.

Process operations should be tailored to the production scenario. High-temperature preheating is not required before startup. Simply use a small amount of wet material to “prime” the die, forming a thin layer of material on the inner wall of the die orifice to prevent subsequent material from sticking to the wall. Use a spiral feeder with a constant speed to avoid concentrated lumps of material and prevent equipment overload. If fibers are found on the surface of the pellets and they are prone to breakage during production, add binder or adjust the moisture content promptly.

Maintenance should focus on vulnerable areas. Organic fertilizer materials contain corrosive components. The die roller surface should be cleaned weekly, and residual humus should be removed with a wire brush to prevent corrosion. The inner wall of the die hole should be inspected monthly, and burrs caused by coarse fiber wear should be removed with fine sandpaper. The transmission system lubricant should be replaced quarterly, using a corrosion-resistant, specialized oil to prevent component wear caused by humus contamination.

By optimizing these measures for organic fertilizer production lines, the flat die granulator’s pelletizing rate can be increased to over 90%, reducing waste of mature raw materials while ensuring uniform organic fertilizer pellets and ensuring stable and efficient production line operation.

The efficiency of a new type two-in-one organic fertilizer granulator directly affects the production capacity of an organic fertilizer production line. Improper operation can easily lead to problems such as slow granulation and low pelletizing yield. Four optimization strategies can improve both efficiency and quality.

First, proper raw material pretreatment is essential. Strict control of raw material particle size and moisture is crucial: crush the fermented organic fertilizer into a 40-60 mesh fine powder to prevent coarse particles from blocking the equipment’s feed inlet and affecting mixing uniformity. The moisture content should be maintained at a stable 25%-35%. Adjust moisture content by drying or adding dry materials; spray water if too low.

Second, precise adjustment of equipment parameters is crucial. During the mixing process, adjust the agitator speed according to the raw material type: when processing high-fiber raw materials (such as straw fertilizer), adjust the speed to 50-60 rpm to increase shear force; when processing highly viscous raw materials (such as chicken manure fertilizer), reduce the speed to 20-30 rpm to prevent material from sticking to the wall. During the pelletizing process, the pelletizing method should be adjusted to suit different raw materials: for high-viscosity raw materials, use agitator pelletizing, adjusting the disc inclination to 40°-45°; for high-fiber raw materials, use roller compaction pelletizing, increasing the die pressure appropriately.After parameter adaptation, the granulation efficiency of the new type two-in-one organic fertilizer granulator can be increased by 20%-25%, and the granule forming rate is stabilized at more than 90%.

Furthermore, daily maintenance is essential. Before starting the machine daily, inspect the agitator blades and pelletizing die for wear. If blade edge wear exceeds 3mm or the die aperture is deformed, replace them promptly to avoid uneven mixing and uneven pellet sizes caused by aging components. Clean residual material inside the equipment weekly, especially the mixing chamber and the inner wall of the pelletizing disc, to prevent material agglomeration that affects subsequent production. Lubricate transmission components such as bearings and gears monthly to reduce mechanical friction and extend equipment operation.

Finally, optimizing production processes can further improve efficiency. The “immediate recycling of screen residue” model allows the screening of substandard fines directly back to the mixing system through a reflux channel, eliminating the need for manual transfer and reducing waiting time for raw materials. If the organic fertilizer production line requires continuous operation, a raw material buffer can be configured to ensure uninterrupted feeding of raw materials, avoiding frequent equipment starts and stops due to material shortages. After process optimization, the equipment’s effective daily production time can be increased by 2-3 hours, increasing overall production capacity by approximately 15%.

The new type two-in-one organic fertilizer granulator features an integrated “mixing + granulation” design, simplifying organic fertilizer production. Its operations are centered around four core steps, ensuring pellet quality and efficiently supporting the organic fertilizer production line.

The first step is raw material pretreatment. Fermented organic fertilizer (such as livestock manure and composted straw) must first be crushed to a 40-60 mesh fine powder with a moisture content of 25%-35%. Excessively coarse raw materials will result in uneven granulation, while inappropriate moisture content will affect the final product. Meeting pretreatment standards is essential for stable equipment operation.

The second step is the core mixing process. Pretreated raw materials enter the integrated mixing system. A high-strength alloy steel agitator shaft drives the wear-resistant blades, while a variable frequency motor precisely controls the speed between 20-60 rpm. If binders such as bentonite are required, they are added simultaneously. The blades shear and stir the powder, achieving over 90% mixing uniformity within 5-10 minutes, preventing uneven nutrient distribution in the pellets.

The third step is targeted granulation. The mixed material automatically enters the granulation system, where the equipment changes its forming method based on the raw material’s characteristics. Highly viscous raw materials (such as chicken manure organic fertilizer) use a stirring granulation mechanism, where paddles knead the material into 2-4mm pellets. High-fiber raw materials (such as straw organic fertilizer) use a roller-type granulation mechanism, where die extrusion forms the pellets. The stainless steel disc can be hydraulically adjusted from a 30° to 50° tilt angle, and a wear-resistant rubber lining reduces sticking to the wall. The pellet formation rate exceeds 90%, and the pellets are uniformly shaped.

Finally, the screen residue is recycled and connected. After granulation, the pellets pass through an integrated screening device. Qualified pellets enter the drying stage (dried to a moisture content of less than 10%), while substandard fines are returned to the mixing system through a recirculation channel for processing with new raw materials. This design achieves a raw material utilization rate exceeding 95%, reducing waste and ensuring continuous production.

The entire process eliminates the need for frequent manual handling. The new type two-in-one organic fertilizer granulator can complete the entire process from raw material input to qualified pellet output, significantly improving the efficiency and convenience of organic fertilizer production.