How does a large wheel compost turner compost organic fertilizer raw materials?
The composting process for organic fertilizer raw materials using a large-scale compost turning machine must be tailored to the specific needs of large-scale operations and follow a continuous fermentation process. The specific steps are as follows:
Raw Material Pretreatment
Bulk organic raw materials are collected and processed centrally: livestock and poultry manure is passed through a solid-liquid separator to remove excess water, reducing the moisture content to below 70%. Straw is crushed to 10-20 cm in length using a pulverizer. Industrial waste is then freed of impurities such as metal and plastic. The raw materials are mixed at a carbon-nitrogen ratio of 25-30:1, and the formula is adjusted by adding straw or manure to achieve a moisture content of 55%-60%.
Wind Stacking
Pretreated raw materials are stacked into large windrows at the composting site. The windrows are 5-8 meters wide and 1.5-2 meters high, with lengths varying depending on production (up to 100 meters). A 3-5 meter walkway is provided between windrows to facilitate movement and operation of the large-scale compost turning machine. Turning and Fermentation
Start the large wheel compost turner and adjust the wheel height to be level with the top of the windrow. The machine moves slowly along the length of the windrow. The wheel rotates at high speed, and the turning teeth toss the material from the bottom upward. Centrifugal force causes the material to disperse to the sides and re-accumulate, ensuring thorough mixing and aeration.
During the initial fermentation period (1-3 days), the first turning of the compost is performed when the temperature reaches 50-60°C. During the high-temperature period (4-10 days), when the temperature reaches 60-70°C, the compost is turned every two days to kill pathogens. During the cooling period (11-25 days), when the temperature drops to 40-50°C, the compost is turned every three to four days to promote humus formation. The entire fermentation cycle is 20-30 days, and a single unit of equipment can turn 500-1000 tons of material per day. Determining Compost Maturity
When the material temperature drops to near ambient temperature (±5°C), the color turns dark brown, the texture becomes loose, there is no noticeable odor, and a light earthy aroma, the material is considered mature. The mature material can be transported to the subsequent processing area by a loader for crushing, screening, and granulation.
What are the advantages and features of a large-wheel compost turner for composting raw materials?
Compared to other compost turning equipment, a large-wheel compost turner offers the following advantages for composting raw materials:
Large processing capacity and high efficiency
The large wheel diameter allows for a wide turning area per turn, capable of handling 100-200 tons of material per hour, 3-5 times that of a crawler-type compost turner. This meets the fermentation needs of large-scale organic fertilizer production and significantly shortens the fermentation cycle.
High compost turning uniformity
The centrifugal force generated by the rotating wheel ensures even material distribution, with a turning depth of up to 1.5-2 meters. This ensures thorough mixing of the upper and lower layers of the material, preventing uneven fermentation. The temperature distribution of the material varies ≤2°C, resulting in consistent composting. Low Operating Costs
The equipment is highly automated, requiring only one or two people to operate each unit. Compared to manual compost turning or small compost turning machines, this reduces labor costs by 50%-70%. Furthermore, energy consumption per unit of material is low, and operating costs are 20%-30% lower than traditional equipment.
Suitable for Large-Scale Production
The equipment is designed for organic fertilizer production lines exceeding 10,000 tons. It can be integrated with front-end raw material pretreatment equipment (such as crushers and mixers) and back-end processing equipment (such as granulators) to form a continuous production process, meeting the demands of large-scale production.
Easy Operation
The electronic control system utilizes a touch screen interface, making parameter settings simple and enabling operators to take up the job after a short training period. The equipment operates stably, has a low failure rate, and requires minimal maintenance, making it suitable for long-term, continuous operation.
How is the large-wheel compost turning machine used in fertilizer production lines?
Large-wheel compost turners are core equipment in the fermentation process of large-scale organic fertilizer production lines. Their applications span the entire raw material fermentation process, specifically as follows:
Linking large-scale raw material processing with further processing
In large-scale fertilizer production lines, pre-treated bulk raw materials (such as livestock and poultry manure and straw) are conveyed by conveyor to the fermentation area, where they are piled into large windrows. Large-wheel compost turners continuously turn and ferment these windrows. The composted materials are then conveyed by conveyor to further processing stages such as crushing and granulation, forming a complete production line encompassing "pretreatment - large-scale fermentation - further processing." Their efficient turning capacity provides a stable supply of raw materials for subsequent processing.
Enabling continuous large-scale fermentation
For organic fertilizer production lines with an annual output of over 100,000 tons, large-wheel compost turners can achieve continuous production by rotating multiple windrows: one windrow receives new material, one performs high-temperature fermentation, and one performs cooler composting. The equipment operates between windrows in a fixed cycle, achieving an average daily processing capacity of 800-1500 tons, meeting the continuous production requirements of the production line. Matching production line capacity and pace
The equipment's compost turning and travel speeds are adjustable via an electronic control system, allowing for flexible adjustments to the fermentation schedule based on the raw material supply rate at the front end and the pelletizer's capacity at the back end. For example, when raw material supply is sufficient, the travel speed can be increased to increase daily processing capacity; when pelletizer capacity increases, the turning cycle can be shortened to accelerate material maturation, ensuring that the fermentation process matches the overall production line pace.
Reducing production line footprint
Large wheel compost turners are suitable for large-scale windrow fermentation. Compared to trough fermentation, they can increase site utilization by over 30%, reducing production line land costs. They are particularly suitable for large production bases with relatively abundant land resources.
How can I regularly maintain my large wheel compost turner to extend its service life?
To ensure stable operation and extend the life of your large-disc compost turner, perform the following regular maintenance measures:
Regular Component Inspection
Before starting the machine daily, inspect the turning gears on the compost turner for looseness, breakage, or excessive wear (wear exceeding 1/3 of the original length requires replacement); check the tire pressure of the travel mechanism (check track tension for crawler models); check the oil and water levels in the powertrain for normal operation and leaks; and test the electronic control system's indicator lights and operating handles for sensitivity.
Weekly, inspect the operating status of the compost turner's rotating support for any abnormal noise or vibration; check the operating temperature of the drive motor and reducer (normally no more than 70°C); check the bolts connecting the turning gears to the compost turner and tighten them to the specified torque (200-300 N·m).
Monthly, inspect the frame welds for cracks and the connecting bolts for looseness or breakage; check the lubrication and wear of the travel mechanism's drive chain and gears, and lubricate or replace them if necessary; and check the accuracy of the electronic control system's sensors and perform calibration. Perform a comprehensive inspection of the equipment every quarter, including checking the wheel disc's deformation, the wear of the rotating support bearings, and the operating status of the power system. Replace severely worn parts promptly. Perform rust removal and corrosion protection on the equipment's structural components to extend its service life.
Lubrication and Maintenance
Regularly lubricate all moving parts according to the equipment manual. Lubricate the wheel disc's rotating support bearings with lithium-based grease (model ZL-3) every 500 hours of operation. Lubricate the travel mechanism's bearings and gears every 300 hours of operation. Change the reducer's gear oil (model N320) every 1000 hours of operation.
When adding lubricating oil or grease, clean dust from the filler port to prevent contaminants. When changing gear oil, drain the old oil thoroughly and clean the oil tank.
Cleaning and Maintenance
After each operation, clean any remaining material from the wheel disc and flipping gears to prevent them from drying and hardening. High-pressure water jets can be used for this purpose. Clean dirt and debris from the travel mechanism to ensure smooth operation. Clean dust from the electrical control cabinet weekly and check electrical wiring connections. Clean the sprinkler system nozzles and filters monthly to prevent blockages that could affect watering effectiveness.
Power System Maintenance
Regularly check the fuel, oil, and coolant levels in the engine (diesel-powered) and replace the oil and filter at the prescribed intervals. Check the insulation and operating temperature of the motor (electric-powered) to avoid overload.
During extended downtime, drain the engine coolant, disconnect the power supply, and perform rust prevention on exposed metal parts.
Electrical Control System Maintenance
Regularly check the electrical components (such as contactors and relays) in the control cabinet for proper operation and contact corrosion. Clean dust and material from sensor surfaces to ensure detection accuracy. Check cables for damage and replace if necessary.
Prevent contamination of the electronic control system from water, oil, and dust. Strengthen protective measures when operating in humid or dusty environments. Regularly back up the electronic control system parameters to prevent data loss.
