Organic fertilizer turning machine is the fermentation choice for organic fertilizer producers

Can manure straw be used as organic fertilizer if it is not decomposed? The answer must be “no”. Only when the manure is completely decomposed by compost turning machine, and then made into organic fertilizer, the seedlings will not burn and rot. Most of the diseases and insect pests were killed by high temperature fertilizer.

Fermentation turner is the best choice for organic fertilizer manufacturers. After harmless treatment by organic fertilizer manufacturing process, organic fertilizer eliminates harmful bacteria and insect eggs, decomposes and transforms organic protein in a short period of time, has no odor, and commercial fertilizer is easy to transport. However, the general self-made fertilizer has the characteristics of long stacking time, low harmless degree, large amount of harmful bacteria, viruses, insect eggs and weed seeds, easy to burn roots and seedlings, and can not be sold as commercial fertilizer. Therefore, organic fertilizer manufacturers will purchase fermentation and compost turner machines to process farm manure.


Fermentation turner is an important link in the production process of organic fertilizer. Farmyard manure fermented by trough dumper is a kind of organic fertilizer with rich nutrient content. It has both a large amount of organic matter and high content of three elements. nutrient. The organic matter content is 25.5 percent, nitrogen is 1.63 percent, phosphorus is 1.54 percent, and potassium is 0.85 percent. Our hot-selling trough compost turning machine adopts track-type walking, so that the turning and throwing production process has good reliability, and the energy consumption is reduced. The matching trough changer can double the output, increase economic income and reduce equipment investment.

Our factory provides NPK fertilizer manufacturing process, organic fertilizer production equipment, we produce a wide range of fermentation compost turning machine models, according to the user’s fermentation tank width size custom turner machine.

What are the different effects of different organic fertilizer granulators on the use of pig manure fertilizer

The effectiveness of pig manure fertilizer is influenced by the granulation process of organic fertilizer granulators, mainly reflected in the following aspects:

Fertilizer release rate:

The pig manure fertilizer produced by wet organic fertilizer granulators usually has a slower release rate of fertilizer efficiency because the addition of water helps to maintain the stability of nutrients in the fertilizer. This is beneficial for long-term crop growth and soil improvement.

The pig manure fertilizer produced by dry granulation has a fast release rate of fertilizer efficiency, which is suitable for the short-term rapid growth needs of crops, but may require more frequent application.

Nutrient utilization efficiency:

Wet granulation, due to its slow fertilizer release characteristics, helps to improve nutrient utilization and reduce nutrient loss, especially for nutrients such as nitrogen and phosphorus.

Dry granulation may lead to rapid loss of some nutrients due to the rapid release of fertilizer efficiency, especially under rainwater erosion, and may need to be used in conjunction with soil water and fertilizer conservation measures.

Soil environmental impact:

Wet granulation may generate a certain amount of wastewater and exhaust gas, which, if not treated properly, may cause pollution to the soil and surrounding environment.

The impact of dry granulation on soil environment is relatively small, but dust may be generated during the production process, and appropriate dust prevention measures need to be taken.

Convenience of application:

The pig manure fertilizer produced by wet granulation has a larger volume and heavier weight, making it less convenient to transport and apply than dry granulation, especially in large-scale agricultural operations.

The pig manure fertilizer produced by dry granulation has a small volume, light weight, and is easy to transport and apply, especially in manual application or small-scale mechanical operations.

economic performance:

The production cost of wet granulation is relatively high, including energy and raw material consumption, but due to its high fertilizer efficiency utilization and long fertilizer duration, it may have good economic benefits in the long run.

The production cost of dry granulation is relatively low, but due to its rapid fertilizer release and possible nutrient loss, it may require more application times, thereby increasing long-term costs.

When choosing the organic fertilizer granulator process for pig manure fertilizer, factors such as crop growth needs, soil conditions, environmental protection requirements, and economic benefits should be comprehensively considered to select the most suitable process for local agricultural production conditions.

Advantages of Solid Liquid Separators in Fecal Organic Fertilizer Production Lines

 The solid-liquid separator is widely used in the industrial field. It is widely used in the fecal treatment in the early stage of the organic fertilizer production line, which is recognized by everyone. This is inseparable from the advantages of the equipment itself. Next, we will introduce the performance advantages of the solid-liquid separator for fecal sewage.

1. Full automaticity

The equipment is equipped with a non clogging submerged pump to pump the cow manure and pig manure water into the solid-liquid separator, and then the water is gradually pushed to the front of the machine by the auger. At the same time, the pressure of the front edge of the machine is continuously increased, forcing the water in the material to extrude out of the screen and flow out of the drainage pipe.
2. Continuity

The work of the solid-liquid separator is continuous. The cow dung / pig dung water is continuously lifted into the solid-liquid separation body, and the pressure of the leading edge is constantly increased. When it reaches a certain extent, the discharge port is pushed open and extruded to achieve the purpose of extrusion discharge.
3. Convenience

In order to master the discharging speed and water content, the counterweight under the main engine can be adjusted to achieve a satisfactory and appropriate discharging state. If too much cow dung water / pig dung water is pumped in, it will be discharged to the original cow dung / pig dung pool through the overflow pipe. The cow dung wastewater separated by spiral extrusion filtration can be directly sent to the biogas digester for biogas fermentation or to the wastewater sedimentation tank.
4. Environmental protection

Dry cow manure/pig manure is squeezed out from the discharge port. After solid-liquid separation, the COD and BOD in the manure water are greatly reduced, which is convenient for subsequent discharge up to standards. The separated manure and sewage can be directly discharged to the biogas digester for biogas fermentation. The fermented manure liquid is a very good organic fertilizer liquid, and can also be discharged to the biogas digester for environmental protection treatment. The remaining manure residue can be fermented into organic fertilizer by compost turning machine.

Process and equipment advantages of organic-inorganic compound fertilizer production line

Huaqiang fertilizer machine manufacturer supplies professional compound fertilizer equipment and designs NPK fertilizer manufacturing process. The scale of fertilizer production line can be from 2000 tons to 100000 tons per year.

The formula of organic-inorganic compound fertilizer is the same as that of inorganic fertilizer according to different soil and different crop formula. If the fermentation is sufficient and the formula is proper, the effect is better than that of inorganic fertilizer, and the cost is lower. It can also improve the living environment of plants and is green fertilizer.

Organic-inorganic compound fertilizer refers to a solid fertilizer that uses harmless treatment of organic matter (including high-temperature compost) and inorganic fertilizer (mainly nitrogen, phosphorus, and potassium fertilizer) as the main raw materials, and is mechanically processed through the organic fertilizer manufacturing process. This compound fertilizer is configured according to the nutrient characteristics of the soil and crops and the purpose of fertilizing the soil, and has the characteristics of nutrient balance.

The horizontal mixer is used in the mixing stage of NPK fertilizer manufacturing process to fully mix different kinds of nutrients to prepare for the granulation of rotary drum granulator.

Performance characteristics of horizontal mixer

The rotation speed of the shaft driven by the reducer and the structure of the blade will weaken the gravity of the material. With the lack of gravity, the difference of particle size and specific gravity of the material is ignored in the mixing process.

The intense stirring movement of horizontal mixer shortens the mixing time, which is faster and more efficient. Even if the material has the difference of specific gravity and particle size, it can achieve good mixing effect under the rapid and violent tossing of staggered mixing blades. In the manufacturing of NPK fertilizer, the raw materials need to be fully mixed. The mixer has high mixing uniformity and less residue. The horizontal mixer is suitable for mixing more than two kinds of fertilizers, additives and premix.

The influence of granulation process of pig manure organic fertilizer granulator on product quality

The impact of the granulation process of the pig manure organic fertilizer granulator on product quality is mainly reflected in the following aspects:

Particle size distribution:

Different granulation processes can affect the particle size distribution of the final product. Wet granulation usually results in a relatively uniform particle size distribution, while dry granulation may produce significant particle size differences.

Particle strength:

Wet granulation, by adding water or other liquids as binders, can increase the strength and hardness of the particles, making them more suitable for storage and transportation.

The particle strength of dry granulation is relatively low, but the energy consumption during the production process is low.

Moisture content:

Wet granulation can increase the moisture content of the product, which may affect storage and subsequent processing.

Dry granulation has a lower moisture content, but may require additional drying processes.

Organic matter content:

The granulation process may affect the conversion efficiency of organic matter in pig manure, thereby affecting the fertilizer efficiency of the product.

Wet granulation facilitates microbial activity and may promote the conversion of organic matter.

Environmental impact:

Wet granulation may generate wastewater and exhaust gas, and appropriate treatment measures are needed to reduce environmental pollution.

Dry granulation has a relatively small impact on the environment.

Production efficiency:

The production efficiency of wet granulation is usually higher than that of dry granulation because its drying and granulation processes can be carried out continuously.

The production efficiency of dry granulation is relatively low, but the energy consumption is also low.

Cost:

The production cost of wet granulation is relatively high because it requires additional energy and materials to regulate humidity.

The production cost of dry granulation is lower, but the product quality may not be as good as wet granulation.

Based on the characteristics of pig manure and the intended use of the final product, a suitable organic fertilizer granulation process can be selected to optimize product quality. For example, if high-strength particles are needed, wet granulation can be chosen; If low-cost production is required, dry granulation can be chosen. At the same time, appropriate measures should be taken to reduce the environmental impact during the production of fertilizers by organic fertilizer granulators, taking into account the requirements of environmental protection and sustainable development.

What precautions should be taken for the installation and debugging of organic fertilizer equipment

When installing and debugging organic fertilizer equipment, the following key points need to be noted:

Preparation before installation:

Confirm that the model and specifications of the organic fertilizer equipment are consistent with the purchase order, and check for any damage during transportation.

Prepare necessary installation tools and materials, such as wrenches, screwdrivers, measuring tools, etc.

Read the device installation manual to understand the installation process and requirements.

Site preparation:

Choose a suitable installation location to ensure sufficient space for equipment operation and maintenance.

The ground should be flat and sturdy, and reinforced if necessary to avoid equipment displacement due to imbalance.

Consider the ventilation, drainage, and power supply needs of the equipment, and arrange relevant facilities reasonably.

Installation process:

Install according to the instructions in the equipment manual to ensure that all components are correctly installed in place.

For heavy equipment, it may be necessary to use lifting equipment for lifting.

Check if all connecting parts are tight and there is no looseness.

Electrical connections:

Ensure that electrical circuits are connected correctly according to the circuit diagram, and use qualified wires and electrical accessories.

Grounding treatment should comply with electrical safety regulations to prevent electric shock accidents.

Install leakage protection devices to ensure safe equipment operation.

Debugging preparation:

After the installation of the organic fertilizer equipment is completed, a preliminary inspection is carried out to ensure that all components are installed correctly and have no obvious defects.

Prepare the necessary tools and materials for debugging, such as lubricating oil, measuring instruments, etc.

Debugging process:

Turn on the power supply of the equipment, conduct a no-load trial run, and check whether the equipment is running normally without any abnormal noise or vibration.

Gradually load the raw materials and observe the working status of the equipment, such as temperature changes, pressure changes, etc.

Adjust equipment parameters, such as speed, temperature control, feeding rate, etc., until the optimal working state is achieved.

security check:

During the debugging process, always pay attention to the operation status of the equipment, especially whether the safety protection facilities are functioning properly.

Check if the equipment has any safety hazards such as overheating or leakage.

Operator training:

After the debugging of the organic fertilizer equipment is completed, train the operators to ensure that they understand the operating procedures, daily maintenance, and emergency response measures of the equipment.

Document records:

Record the detailed process of installation and debugging, including encountered problems and solutions, as well as the final debugging results.

Post maintenance plan:

Develop regular inspection and maintenance plans for equipment to ensure long-term stable operation.

By following the above precautions, the smooth installation and debugging of organic fertilizer equipment can be ensured, laying a solid foundation for subsequent production and operation.

Granulation process and working environment of pig manure organic fertilizer granulator

The granulation process of pig manure organic fertilizer granulator is mainly divided into two types: wet granulation and dry granulation.

Wet granulation:

Wet granulation refers to adding a certain amount of water or other liquid during the granulation process to achieve a certain humidity condition for pig manure raw materials, and then extruding them into granules through mechanical force.

The advantage of wet granulation is that it can produce uniform and smooth particles, and the particles have high strength and are not easily broken.

The disadvantage is that it requires more energy to heat and dry wet particles, and the production process may generate wastewater and exhaust gas.

Dry granulation:

Dry granulation refers to the process of directly utilizing the moisture and binder of pig manure raw materials through mechanical force without adding additional water.

The advantages of dry granulation are low energy consumption, simple production process, and no generation of wastewater and exhaust gas.

The disadvantage is that the quality of the particles may not be as uniform as wet granulation, and the strength of the particles is relatively low, making them easy to break.

The working temperature of the pig manure organic fertilizer granulator usually depends on various factors, including the properties of the raw materials, the required final product characteristics, and the production process. In practical operation, the working temperature of the pig manure organic fertilizer granulator is generally between 50 ℃ and 100 ℃. Within this temperature range, organic matter in pig manure is more easily decomposed by microorganisms, which is beneficial for the activity of the binder and thus facilitates the smooth granulation process.

However, the specific working temperature still needs to be adjusted according to the actual production situation. For example, if the moisture content in the raw material is high, it may be necessary to increase the working temperature to accelerate the evaporation of moisture; On the contrary, if the moisture content in the raw material is low, it may be necessary to lower the working temperature to prevent particle hardening caused by rapid evaporation of moisture. In addition, excessively high operating temperatures may lead to excessive wear and tear of the equipment, while excessively low operating temperatures may affect the granulation effect.

Therefore, in practical operation, the working temperature of the organic fertilizer granulator should be reasonably set according to the specific properties of pig manure and production process requirements to ensure the stability of the production process and the reliability of product quality. At the same time, close attention should be paid to the operating status of the equipment, and process parameters should be adjusted in a timely manner to adapt to changes in raw materials and environmental conditions.

Selecting appropriate equipment for fertilizer production lines to reduce equipment losses

NPK compound fertilizer production line needs a lot of supporting equipment to complete the whole granulation production task when processing fertilizer. In these many supporting equipment, there is a mixing equipment, fertilizer mixer for mixing materials.


Horizontal mixer for intermittent operation, it is suitable for rotary drum granulator mixing operation. General fertilizer production should be equipped with two or more sets to keep the production flexible to meet the market demand.

Fertilizer mixer is the supporting production equipment of the whole compound fertilizer production equipment. We can calculate the specific model and specification according to the output of the fertilizer production line. If the specification of the mixing equipment is too large, it may cause a waste of energy. If it is too small, it will affect the normal production, so we must choose the appropriate one.

1. Operate in strict accordance with the operation manual of NPK fertilizer manufacturing process, and use professional fertilizer equipment staff to ensure that the professional level of staff meets the standard.

2. The maintenance of fertilizer equipment should be done well at ordinary times. If possible, the fertilizer production equipment can be prevented from being exposed to the sun. Especially NPK fertilizer granulator, batching system, packaging machine and other key equipment.

3.The intelligence of fertilizer equipment can also avoid the damage of many human factors. So please look for our fertilizer machines when purchasing fertilizer equipment. Our fertilizer equipment has reasonable structure, low failure rate and simple operation of fertilizer production process.

What preparations are needed before using organic fertilizer equipment

Before using organic fertilizer equipment, the following preparations need to be made:

Site preparation:

Choose a suitable site to ensure sufficient space for the installation and operation of organic fertilizer equipment, and the site should be flat, solid, and have a good drainage system.

Clean up the site, remove weeds and obstacles, and ensure that there are no hard objects that may damage the equipment.

Equipment inspection:

Carefully inspect the newly purchased organic fertilizer equipment to ensure that all components are intact and meet factory standards.

For equipment that has already been used, conduct a comprehensive maintenance inspection, including fastening of fasteners, inspection of electrical circuits, replacement of vulnerable parts, etc.

Installation and debugging:

Install according to the equipment manual, ensuring that all components are correctly installed in place, all connecting parts are well sealed, and there is no air or liquid leakage.

After installation, carry out debugging of the organic fertilizer equipment to ensure smooth operation and that all parameters meet the design requirements.

Raw material preparation:

According to production needs, prepare an appropriate amount of raw materials, such as animal manure, crop straw, etc., to ensure that the quality and humidity of the raw materials meet fermentation requirements.

Pre treat the raw materials, such as crushing, mixing, adjusting moisture, etc., to meet the processing requirements of the equipment.

Security training:

Provide safety training to operators to ensure they are familiar with the equipment’s operating procedures, safety measures, and emergency response methods.

Emphasize the importance of personal protection, such as wearing protective clothing, gloves, masks, etc.

Environmental assessment:

Assess the potential impact of the production process on the surrounding environment, such as odor diffusion, sewage discharge, etc., and develop corresponding environmental protection measures.

Regulatory compliance:

Understand and comply with local laws and regulations related to organic fertilizer production, ensuring that the production process is legal and compliant.

Record keeping:

Establish a production record system to record information such as raw material procurement, equipment maintenance, production process, and product quality testing for traceability and quality control.

Through the above preparation work, the smooth operation of organic fertilizer equipment can be ensured, production efficiency can be improved, and the safety and environmental protection of the production process can be guaranteed.

the impact of the working temperature of the pig manure organic fertilizer granulator on product quality

The working temperature of the pig manure organic fertilizer granulator has a significant impact on product quality, directly affecting the physical and chemical properties of the final product, as well as production efficiency and energy consumption.

Influence of physical properties:

Low working temperature may result in ineffective evaporation of moisture in pig manure raw materials, causing the particles produced by the organic fertilizer granulator to be too wet, affecting storage and transportation.

Excessive working temperature may cause the surface of particles to harden excessively, while maintaining a high level of moisture inside. Such particles are prone to cracking or deformation during subsequent drying and storage processes.

The appropriate working temperature can ensure that the particles have moderate hardness and strength, which is convenient for subsequent processing and use.

Chemical properties influence:

High temperatures may accelerate the thermal decomposition of organic matter in pig manure, alter its chemical structure, and affect the fertilizer composition of the product.

High temperatures may also promote the generation of certain harmful substances, such as volatile organic compounds like ammonia, which may cause environmental pollution.

Production efficiency and energy consumption:

A higher working temperature usually means a faster rate of water evaporation, which can improve production efficiency but also increase energy consumption.

If the working temperature is too high, it may cause excessive wear and tear of the equipment, shorten its service life, and increase maintenance costs.

Microbial activity:

Pig manure contains a large number of microorganisms, and a suitable working temperature is conducive to microbial activity, fermentation, and organic matter conversion in pig manure.

If the working temperature is too high or too low, it may inhibit the activity of microorganisms, affecting the fermentation effect and subsequent fertilizer performance of pig manure.

Therefore, when operating the pig manure organic fertilizer granulator, it is necessary to strictly control the working temperature to ensure that the produced organic fertilizer products have good physical and chemical properties, while ensuring the efficiency and environmental protection of the production process. Usually, this requires experimental determination of the optimal operating temperature range and fine-tuning in actual production to adapt to changes in seasons and raw material conditions.