Recently, Zhengzhou Huaqiang Heavy Industry Technology Co., Ltd. completed the full-process commissioning of an angle-belt conveyor extrusion granulation production line tailored for a Malaysian client, officially entering the stage of large-scale production. This production line innovatively adopts a Type 7 large-angle bending belt conveyor as the core transfer equipment, integrating the entire chain of processes including raw material storage, precise mixing, efficient granulation, grading and screening, and finished product storage. With its compact layout design, stable material handling capacity, and high-efficiency granulation performance, it has become a benchmark project for fertilizer production equipment in Southeast Asia, providing local enterprises with a highly adaptable and cost-effective mass production solution.

Production Line Full-Process Configuration and Core Equipment Analysis

The entire production line is built around a closed-loop logic of “precise raw material supply – efficient mixing – batch granulation – graded output.” The core highlight is the in-depth application of the Type 7 large-angle bending belt conveyor. The coordinated operation of each unit ensures production efficiency while maximizing the use of factory space, fully meeting the large-scale production needs of the Malaysian client.

Raw Material Storage and Transfer Unit: Large-Angle Belt Conveyor Solves Space Challenges

Raw Material Storage and Discharge: The production line starts with a spiral discharge raw material silo. The silo features a sealed design to effectively prevent moisture absorption, clumping, and dust contamination. A spiral discharge device at the bottom, combined with variable frequency speed control technology, allows for precise control of the raw material discharge rate, adapting to subsequent production rhythms. The total storage capacity of the raw material silo meets the needs of continuous 10 hours of full-load production, supporting the classified storage of main raw materials such as nitrogen, phosphorus, and potassium, as well as various additives, ensuring formula purity.

Large-Angle Bending Belt Conveyor Transfer: Raw materials are transferred over long distances and at large angles via a Type 7 large-angle bending belt conveyor (total length 115 meters, composed of multiple 2-meter, 8-meter, and 15-meter sections). This belt conveyor is a core piece of equipment specifically developed for space-constrained scenarios, with a maximum bending angle of 45°, a 30% increase in transfer angle compared to conventional belt conveyors. It enables efficient vertical and horizontal material transport within limited factory space, significantly saving floor space. The belt conveyor uses a wear-resistant and anti-slip conveyor belt with anti-slip textured surface, coupled with anti-spillage side baffles, effectively preventing materials from sliding and spilling during steep-angle transport. Material transport efficiency reaches 8 tons/hour, with a transport loss rate controlled below 0.5%. The equipment drive system uses an energy-saving motor with operating noise as low as 70dB, and is equipped with an automatic deviation correction device to ensure long-term stable operation.

Raw Material Mixing and Feeding Unit: Laying a Solid Foundation for Uniform Granulation

Dual-Machine Parallel Mixing: After transport, the raw materials are evenly distributed to two horizontal mixers via a three-way distributor. This equipment adopts a dual-shaft counter-rotating design, with impellers made of high-strength alloy material and treated with a wear-resistant coating. During the mixing process, the materials form strong convection and shear forces, ensuring thorough mixing of multi-component raw materials, with a mixing uniformity error ≤2%. The mixer is equipped with an automatic material level monitoring function. When the material in the drum reaches the set capacity, the raw material transfer system is automatically triggered to stop feeding, preventing material overflow or insufficient mixing. After mixing, the material is discharged through the bottom quick discharge port, reducing the discharge time to 2.5 minutes per batch, significantly improving production continuity.

Precise feeding control: The mixed raw materials are uniformly conveyed to the granulator via a spiral feeding hopper. The feeding hopper has a built-in spiral conveyor and material level sensor, which can adjust the feeding speed in real time to ensure uniform feeding of the four extrusion granulators, avoiding granulation quality fluctuations or equipment overload caused by uneven feeding. The feeding hopper adopts a sealed structure, effectively reducing dust emissions during material transfer and improving the production environment.

Core Granulation Unit: Four Machines in Parallel Operation Enables Mass Production Capacity

The core equipment of the production line consists of four extrusion granulators. This model is a mature product developed by Huaqiang Heavy Industry for medium to large-scale production capacity needs. It adopts a high-strength roller extrusion design, with roller skins made of high-chromium alloy. After quenching treatment, the hardness reaches HRC62 or higher, exhibiting extremely high wear resistance and extending its service life to over 10,000 hours. The granulators precisely control the extrusion pressure (6-18MPa) through a hydraulic pressurization system, adapting to the granulation needs of organic fertilizer and compound fertilizer raw materials with different moisture content (25%-32%) and different compositions. The granulation rate is consistently maintained above 93%, with particle size uniformly controlled at 3-5mm and a compressive strength of 2.6MPa, making them less prone to pulverization and fully meeting the needs of local agricultural fertilization and long-distance transportation.

Four granulators operate in parallel, each with an hourly output of 2.2 tons. Combined operation achieves a total capacity of 8.8 tons/hour and a daily capacity of 211.2 tons, significantly improving the customer’s market supply capabilities. The granulators are equipped with an automatic roller cleaning device that removes material adhering to the roller surface in real time, preventing die blockage and ensuring continuous operating efficiency.

Grading and Finished Product Storage Unit: Strict Quality Control and Efficient Delivery

Precise Grading and Screening: Granulated particles are transferred to a linear vibrating screen via a 5-meter belt conveyor. This equipment uses a double-layer screen design; the upper screen separates large, unqualified particles, while the lower screen screens qualified finished products. The screening efficiency reaches 10 tons/hour, with a qualified particle pass rate of 98%. Unqualified particles are returned to the raw material mixing front end via a 7-meter return conveyor and re-enter the granulation process, achieving a material utilization rate of 99% and effectively reducing production costs. The linear vibrating screen is equipped with a vibrating motor and shock absorption device, ensuring stable operation and low noise. The screen mesh can be quickly disassembled and replaced to accommodate different particle size requirements.

Finished Product Storage and Transfer: Qualified granules are diverted to two finished product silos via a three-way distributor. These silos feature a sealed design and are equipped with a dehumidification and ventilation system to effectively prevent fertilizer from absorbing moisture and clumping, ensuring product storage stability. Material level sensors are installed inside the silos to provide real-time inventory feedback, facilitating customers’ efficient shipment planning. Finished products are then transferred to the packaging area via a 3-meter belt conveyor, which can be flexibly integrated with subsequent equipment such as automatic packaging scales, achieving fully automated operation from raw material processing to finished product delivery.

Core Advantages and Regional Adaptability of the Production Line: Ultimate Space Utilization Efficiency: The application of a Type 7 large-angle bending belt conveyor reduces the production line’s footprint by 30% compared to traditional layouts, perfectly adapting to the limited space available in Malaysian factories. The multi-segment splicing design facilitates installation and subsequent maintenance, and the belt length and bending angle can be flexibly adjusted according to the factory layout.

High Efficiency in Both Transfer and Granulation: The large-angle belt conveyor enables stable long-distance, large-angle transfer with low material loss and high efficiency; four granulators operate in parallel to meet the needs of large-scale production capacity, increasing overall production efficiency by 15% compared to conventional production lines of the same scale.

Stable, Reliable, and Highly Adaptable: The core equipment uses high-temperature resistant and corrosion-resistant materials, adapting to the hot and humid climate conditions of Malaysia; the extrusion granulator can flexibly adapt to various materials such as organic fertilizer, compound fertilizer, and bio-organic fertilizer, supporting rapid switching between different formulations to meet the diverse agricultural fertilization needs of the region.

The successful commissioning of this angled belt conveyor extrusion granulation production line in Malaysia not only demonstrates Huaqiang Heavy Industry’s comprehensive strength in customized fertilizer equipment R&D, core transfer technology innovation, and overseas project implementation, but also provides efficient and stable equipment support for the modernization of agriculture in Southeast Asia. In the future, Huaqiang Heavy Industry will continue to focus on the production conditions and needs of different regions, optimize product performance and service solutions, and provide more competitive customized solutions for global customers, allowing “Made in China” to gain greater recognition in the international market.

 Process Diversification and Technological Integration

While this specific project utilizes an extrusion-based roller press granulator production line as its core, it’s important to contextualize this within the broader spectrum of fertilizer manufacturing technologies. The successful fertilizer granules compaction process demonstrated here is a highly efficient method for producing dense, low-dust granules. This contrasts with, yet complements, other prevalent methods like rotary drum granulation. The NPK manufacturing process often selects granulation technology based on raw material characteristics (powder blend vs. slurry) and desired product attributes. Drum granulation is typically suited for steam or liquid binding processes, creating granules through a tumbling and layering action.

Looking forward, Huaqiang Heavy Industry’s expertise extends across these domains. For clients with different raw material profiles or product requirements, the company offers tailored solutions such as a double roller press granulator for high-capacity compaction or a specialized organic fertilizer disc granulation production line. The disc granulator is particularly effective in the organic fertilizer manufacturing process for powdery organic materials, using a rotating inclined disc to form spherical granules through agglomeration. For operations seeking advanced organic solutions, a new type organic fertilizer granulator combining mixing, shaping, and polishing in one unit may be recommended. Ultimately, whether the need is for robust fertilizer compaction via a fertilizer compactor or for the coating and hardening stage in a comprehensive NPK fertilizer manufacturing process, the selection is driven by optimizing capital efficiency, product quality, and adaptability to local production conditions.

The Malaysia project thus stands as a testament to the effective application of compaction technology, while highlighting the industry’s move towards flexible, modular production lines that can incorporate various granulation principles—from extrusion and compaction to tumbling agglomeration—to meet the diverse and evolving needs of the global fertilizer market.

In numerous industries such as food preservation, pharmaceutical protection, electronic protection, daily necessities packaging, and chemical product sealing, surface protection and appearance optimization are key to enhancing product competitiveness. Laminating machines (also known as film packaging machines or film coating machines), as automated equipment for coating product surfaces, have become core equipment for packaging upgrades across various industries due to their high efficiency, wide adaptability, and stable coating quality. By covering the product surface with a thin film, it enhances the product’s moisture-proof, dust-proof, and corrosion-proof properties, while also improving the product’s appearance and packaging protection, providing comprehensive protection for product storage, transportation, and sales.

The stable and efficient operation of laminating machines relies on a scientifically sound structural design, with each core system working in tandem to form a complete laminating operation system. The conveying system is the foundation of material flow, typically employing belt conveyors or chain conveyors, which accurately and smoothly transport products to be coated to the designated laminating station, ensuring the continuity of the operation. The film supply system consists of a film roll, a film guiding mechanism, and a film tension adjustment device. It ensures a continuous and stable supply of film while maintaining a smooth, wrinkle-free surface through tension adjustment, laying the foundation for high-quality lamination. The heating system uses heating tubes and infrared heating lamps to precisely control the temperature, heating the film to a softened state for excellent adhesion. The forming system uses molds or hot air to shape the softened film to fit the product, ensuring a perfect fit. The cooling system intervenes quickly after lamination, using air or water cooling to rapidly set the film, improving lamination adhesion and surface smoothness. The control system uses PLC or microcomputer control to achieve fully automated management of equipment speed, temperature, and workflow, while also featuring fault detection to ensure stable operation. The safety protection system is equipped with emergency stop switches and safety doors, providing comprehensive protection for operators.

The laminating machine’s working principle is clear and efficient, with fully automated control ensuring both lamination quality and efficiency. During operation, the product to be laminated is first precisely delivered to the laminating station via a conveyor system. Simultaneously, the film supply system pulls the film out at a uniform speed, and after being guided by a film guiding mechanism, it is smoothly applied to the product surface. Then, the heating system activates, heating the film to a softened state. The forming system works concurrently, using mold bonding or hot air shaping to ensure the softened film adheres tightly to the product surface. After bonding, the cooling system quickly activates to cool and set the laminated product, ensuring a firm bond between the film and the product, thus completing the entire laminating process. The entire process is automated under the control system, requiring minimal manual intervention, ensuring consistent laminating quality and significantly improving operational efficiency.

The unique structure and working principle give the laminating machine many significant advantages, enabling it to adapt to the complex packaging needs of various industries. High efficiency is its core competitiveness; the equipment can achieve continuous laminating operations, greatly improving production efficiency and adapting to large-scale production rhythms. Its exceptional adaptability is another major highlight. By adjusting the mold or forming parameters, it can adapt to products of different shapes and sizes, achieving high-quality lamination for regular box-shaped, cylindrical, and irregularly shaped products. This high-quality lamination benefits from precise temperature and speed control, ensuring a tight bond between the film and the product, excellent sealing performance, and a smooth, even appearance, effectively enhancing the product’s market competitiveness. The fully automated operation mode significantly reduces manual operation, lowering labor costs and human error. The equipment also features a user-friendly interface with simple and easy-to-understand parameter settings, facilitating operation and maintenance. Furthermore, a comprehensive safety protection system ensures operator safety, and the equipment operates stably with a low failure rate, further improving enterprise production efficiency.

From snack packaging in the food industry and medicine box lamination in the pharmaceutical industry to component protection in the electronics industry and product beautification in the daily necessities industry, laminating machines, with their core advantages of high efficiency, stability, and flexibility, have become essential equipment for packaging upgrades across various industries. Against the backdrop of ever-increasing consumer demands for product quality and appearance, this automated equipment, which combines protection and aesthetics, not only helps companies enhance their product competitiveness but also drives the packaging industry toward efficiency, precision, and automation, providing strong support for the high-quality development of various industries.

Enhancing Fertilizer Products Through Advanced Finishing

While laminating machines serve industries focused on consumer goods, a conceptually similar finishing process is crucial in the fertilizer industry: coating. The protective coating of fertilizer granules is a key final step in modern professional fertilizer manufacturing equipment, enhancing product stability and performance.

This coating process is typically integrated into a complete npk fertilizer production line or organic fertilizer production line. Within the npk fertilizer production process, it occurs after the granulation stage. The process begins with precise formulation using an npk blending machine or npk bulk blending machine. The blend is then shaped into granules using a fertilizer granulator, which could be a disc granulator machine in a disc granulation production line, a double roller press granulator, or part of a roller press granulator production line. For organic operations, the process starts with raw material from a windrow composting machine. After granulation and drying, a coating is applied to the granules to control dust, improve flowability, and provide controlled-release properties, completing the value chain in both standard NPK and specialized bio organic fertilizer production line outputs.Thus, while the machines differ, the principle of applying a protective surface layer is a shared concept across industries, and in fertilizer manufacturing, it is a critical step that adds significant value and functionality to the final product.

The combination of a cage crusher and a cyclone dust collector is a golden combination for the pretreatment of raw materials in fertilizer production. It achieves both fine crushing of large raw materials and efficient dust collection, purifying the production environment. It is widely applicable to the processing of raw materials for various fertilizers, including organic fertilizers and compound fertilizers, and is especially suitable for large-scale production scenarios requiring strict dust pollution control.

Core Equipment Functions and Synergistic Advantages

Cage Crusher: The Core Equipment for Precise Raw Material Crushing

Working Principle: Utilizing a “double-cage rotor collision + shearing” crushing mode, the inner and outer cage bars are driven by a motor to rotate at high speed (speed up to 1500-2000 r/min). After entering the chamber, the raw material is rapidly crushed through impact, shearing, and mutual collision between the cage bars. The particle size after crushing can be flexibly controlled between 0.5-3 mm.

Suitable Raw Materials: Perfectly processes inorganic fertilizer raw materials such as urea, monoammonium phosphate, and potassium chloride, as well as organic raw materials such as fermented livestock and poultry manure, straw charcoal, and mushroom residue. It can crush large materials with a particle size ≤80mm, with a crushing efficiency of 5-15 tons/hour (adjusted according to machine specifications).

Core Advantages: The cage bars are made of high-chromium wear-resistant alloy material, achieving a hardness of HRC60 or higher after quenching treatment, extending the service life to over 8000 hours; the equipment has a built-in grading screen, which can be replaced with different mesh sizes to ensure uniform output particle size; compact structure and low operating noise (≤75dB), suitable for compact production line layouts.

Cyclone Dust Collector: An Environmentally Friendly Solution for High-Efficiency Dust Purification

Working Principle: Utilizing centrifugal force to separate dust, dust-laden gas enters the dust collector chamber at high speed through the inlet, rotating along the inner wall. Dust particles are thrown against the wall by centrifugal force and slide down the cone wall to be collected in the ash hopper. The purified gas is discharged from the outlet, achieving a dust removal efficiency of 95%-98%.

Suitable Scenarios: Specifically designed for collecting dust generated during the operation of cage pulverizers, especially for dust particles with a diameter of 0.1-10μm in fertilizer production. It can control the dust concentration in the workshop to below 10mg/m³, meeting national environmental protection standards.

Core Advantages: Made of carbon steel or stainless steel, corrosion-resistant and easy to maintain; no need for filter cloths or other easily damaged parts, resulting in low operating costs; large air volume handling capacity (1000-5000m³/h), precisely matched to the dust generation of cage pulverizers, and can be directly connected to a fan for negative pressure dust removal.

III. Collaborative Workflow and Value

After the raw materials are crushed by the cage crusher, the resulting dust-laden gas is drawn into a cyclone dust collector under the negative pressure of a fan.

The dust is efficiently separated and collected, and the purified gas is discharged in compliance with standards. The collected dust is discharged through the ash hopper and can be recycled back to the production line for reuse, increasing material utilization by 3%-5%.

The entire system achieves integrated “crushing + dust removal” operations, ensuring that the raw material fineness meets standards, solving the dust pollution problem, reducing material waste, and lowering production losses.

Selection and Usage Precautions

Selection and Matching Key Points

Capacity Matching: Based on the hourly output of the cage crusher (e.g., 5 tons/hour, 10 tons/hour), select a cyclone dust collector with a corresponding air volume to ensure dust removal efficiency and avoid dust leakage due to insufficient air volume;

Material Compatibility: When handling corrosive raw materials (e.g., ammonium sulfate, monoammonium phosphate), the equipment should be made of stainless steel or have an anti-corrosion coating to extend its service life;

Installation Height: Sufficient installation height (usually ≥3 meters) should be reserved for the cyclone dust collector to ensure that dust settles smoothly into the ash hopper and avoids accumulation and blockage.

Daily Use and Maintenance Regularly check the wear of the cage bars in the cage crusher; replace them promptly if severely worn to avoid affecting crushing efficiency. Clean the screen regularly to prevent material from clogging the screen holes. Clean the dust collected in the cyclone dust collector’s hopper regularly to prevent excessive dust accumulation from affecting the dust removal effect. Check the air inlet and outlet for leaks to prevent a decrease in dust removal efficiency. Maintain the matching fan regularly to ensure stable negative pressure. Adjust the fan speed according to the amount of dust generated to balance dust removal efficiency and energy consumption.

A Foundational Step in the Production Chain

The cage crusher and cyclone dust collector system represents a critical early-stage process within a complete organic fertilizer manufacturing system. It ensures that raw organic materials are properly sized and cleaned before entering the core biological and shaping stages, setting the stage for high-quality final product manufacturing.

This preprocessing step is integral to an efficient organic fertilizer manufacturing operation. The crushed and cleaned material, often derived from compost processed by a chain compost turning machine using advanced fermentation composting turning technology, is ready for the organic fertilizer production granulation stage. Here, manufacturers can choose specialized equipment to shape the material. Options include a dedicated organic fertilizer disc granulation production line featuring an organic fertilizer disc granulation machine for uniform pellets, or a versatile organic fertilizer combined granulation production line that may incorporate a new type organic fertilizer granulator. This systematic integration, from efficient crushing to precise granulation, defines a modern, high-output organic fertilizer production line.Therefore, the value of the crushing and dust removal system extends far beyond its immediate function; it is an essential enabler of consistency, efficiency, and environmental compliance throughout the entire organic fertilizer production process.

In 2025, Zhengzhou Huaqiang Heavy Industry Technology Co., Ltd. completed the full-process commissioning of a 10-unit extrusion granulation production line tailored for a customer in Guigang, Guangxi, officially entering a new stage of large-scale mass production. This production line focuses on the ultra-large-capacity production needs of compound fertilizers and organic fertilizers, integrating the entire chain of core processes including batching, crushing, mixing, granulation, screening, coating, and packaging. With its robust configuration of 10 granulation main units operating in parallel, highly automated process design, and stable and reliable operation, it has become a benchmark project for fertilizer production equipment in South China, injecting strong momentum into the upgrading of local agricultural industrialization.

Production Line Full-Chain Configuration and Core Equipment Analysis

The entire production line follows a closed-loop process of “precise batching – raw material pretreatment – efficient granulation – fine processing optimization – finished product output.” The equipment layout is compact and orderly, with seamless connections. Each unit works synergistically, ensuring both ultra-large capacity requirements and strict control over product quality stability.

Precision Batching and Raw Material Pretreatment Unit: Strengthening the Production Foundation

Multi-Compartment Collaborative Batching System: The production line starts with a 4-compartment automatic batching system. Each compartment is independently designed to store nitrogen, phosphorus, and potassium as main raw materials, as well as various additives. The total storage capacity meets the requirements of continuous 12-hour full-load production. Precision metering devices are installed at the bottom of the batching compartments. Combined with a PLC intelligent control system, the system automatically adjusts the amount of each raw material fed according to the preset formula, with a batching error of ≤1%, ensuring accurate fertilizer nutrient ratios.

High-Efficiency Crushing and Uniform Mixing: Raw materials are conveyed to a 90-type horizontal semi-wet material crusher via 2.9-meter and 11-meter belt conveyors. This equipment is specifically designed for high-moisture raw materials, employing wear-resistant alloy cutter discs and a graded crushing structure. It can crush large, agglomerated raw materials (particle size ≤80mm) into uniform fine materials ≤2mm, achieving a crushing efficiency of 15 tons/hour, meeting the stringent requirements for raw material fineness in subsequent granulation. The pulverized material is transferred via a Y-shaped tee and a 14-meter belt conveyor to two 2200-type precision mixers (presumably “precision mixers”). These machines feature a dual-shaft counter-rotating design with wear-resistant coatings on the impellers. During mixing, the material forms a strong convection circulation, ensuring thorough mixing of different components with a mixing uniformity error of ≤2%, laying the foundation for high-quality granulation.

Core Granulation Unit: 10 Main Units Create Super Capacity

The mixed material is then diverted via a tee and evenly fed by two 2200-type disc feeders to ten extrusion granulators. The feeders employ variable frequency speed control and automatic material level control technology, allowing real-time adjustment of the feed rate based on the granulator’s operating status, preventing granulation quality fluctuations or equipment overload caused by uneven feeding.

The core highlight of the entire production line is the parallel operation of 10 extrusion granulators. Each machine has an hourly output of 3 tons, and their combined operation achieves a total capacity of 30 tons/hour and a daily capacity of 720 tons, far exceeding the capacity of conventional production lines. The granulators employ a high-strength roller extrusion design, with roller skins made of high-chromium alloy. After quenching treatment, the hardness reaches HRC62 or higher, exhibiting extremely high wear resistance and extending the service life to over 10,000 hours. The equipment is equipped with a hydraulic pressure regulation system, allowing precise control of the extrusion pressure within the range of 6-18 MPa to adapt to the granulation needs of raw materials with different moisture content and compositions. The granulation rate remains consistently above 93%, with uniform particle size controlled at 3-5 mm and particle strength reaching 2.8 MPa. The particles are not easily pulverized, meeting the requirements for long-distance transportation and long-term storage.

Post-processing and Finished Product Output Unit: Enhancing Quality + Efficient Shipping

Screening and Coating Optimization: Granulated granules are transferred to a 15x60m drum screen (presumably a 1.5×6.0m standard size) via 7m and 11m belt conveyors. A double-layer screen design separates large, unqualified granules on the upper layer and selects qualified finished products on the lower layer, achieving a screening efficiency of 35 tons/hour. Unqualified granules are returned to the pre-processing unit via 8m and 5m return conveyors for reprocessing, achieving a material utilization rate of 99%. Qualified granules undergo anti-caking pre-treatment in a 16-type spiral duster, followed by a 1.5×6.0m coating machine. Atomized spraying technology evenly coats the granules with a coating agent, forming a dense protective film that effectively improves the fertilizer’s moisture resistance, stability, and slow-release nutrient effect.

Finished Product Storage and Automated Packaging: Wrapped finished products are conveyed to a finished product warehouse via a 12-meter belt conveyor for temporary storage. The warehouse is equipped with a material level monitoring system to provide real-time inventory status feedback. Finally, quantitative packaging is completed using an automatic packaging scale. The equipment supports rapid switching between multiple specifications such as 25kg, 40kg, and 50kg, with a measurement error ≤ ±0.2kg and a packaging speed of up to 200 bags/hour. Combined with a subsequent transfer system, it achieves rapid warehousing and shipment of finished products.

Core Advantages and Industry Value of the Production Line

Super Capacity Leading the Industry: The innovative configuration of 10 parallel granulation units breaks through the capacity bottleneck of conventional production lines, meeting the quantitative needs of large-scale fertilizer production enterprises and helping customers seize market share.

Intelligent, Efficient, Cost-Effective, and Inefficient: The entire process is integrated with a PLC intelligent control system, achieving automated control of batching, feeding, granulation, and screening, reducing manual intervention and labor intensity. The equipment’s energy consumption is 15% lower than that of conventional production lines with the same capacity, resulting in a significant reduction in overall production costs.

Stable, reliable, and highly adaptable: Core equipment adopts standardized and wear-resistant designs, key components are highly versatile, and maintenance is convenient. The production line can flexibly adapt to the production of various materials such as organic fertilizer, compound fertilizer, and bio-organic fertilizer, and supports product customization with different particle sizes and formulas, demonstrating extremely high adaptability.

The successful commissioning of 10 extrusion granulation production lines in Guigang, Guangxi, not only demonstrates Huaqiang Heavy Industry’s core strength in the R&D and integration of ultra-large capacity granulation equipment, but also provides efficient and stable equipment support for the modernization of agriculture in South China. In the future, Huaqiang Heavy Industry will continue to focus on customer needs, continuously optimize product performance and process solutions, and provide more competitive customized solutions for global fertilizer producers, contributing to the high-quality development of the agricultural industry.

Mastering High-Volume Dry Granulation

This groundbreaking 10-unit production line in Guangxi exemplifies the industrial-scale application of advanced fertilizer granulation technology. Its core innovation lies in the massive parallel deployment of extrusion granulators, a method that falls under the category of dry granulation processes.

The line is a prime example of a roller press granulator production line, where each fertilizer compaction machine (or fertilizer compactor) performs fertilizer granules compaction through high-pressure extrusion. This method of fertilizer compaction is a key fertilizer granulation processes used within the broader npk manufacturing process for specific product types. It stands in contrast to alternative fertilizer processing machine technologies, such as drum granulation using a rotary drum granulator for wet agglomeration. The successful scaling to ten parallel units demonstrates a mastery of this particular fertilizer granulation technology, enabling unprecedented production volumes of dense, low-moisture fertilizer granules.Therefore, this project is not just about capacity; it is a testament to the precision engineering and process control required to reliably scale up dry granulation, providing a model for high-output fertilizer manufacturing that prioritizes product density and energy efficiency.

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