Analysis of Application Scenarios and Advantages of Different Organic Fertilizer Production Methods

With the rapid development of ecological agriculture, the market demand for organic fertilizers continues to rise, and the corresponding production methods are also becoming increasingly diversified. Based on differences in fermentation methods and production scale, the current mainstream organic fertilizer production methods mainly include the windrow composting method, the fermentation tank method, and the Bokashi method. Each method has its own focus in terms of process design, equipment requirements, and applicable scenarios, respectively adapting to large-scale commercial production, precise customized production, and small-scale home/garden planting needs, collectively promoting the resource utilization of agricultural waste. The windrow composting method is the mainstream choice for large-scale aerobic composting and is widely used in large organic fertilizer production enterprises, especially suitable for processing large quantities of agricultural waste such as crop straw and livestock manure from large-scale farms. The core advantage of this method lies in its strong large-scale processing capacity. Through dedicated windrow turning equipment (such as crawler-type windrow turners and trough-type windrow turners), automated turning of tens of thousands of tons of compost piles can be achieved, significantly improving labor efficiency and precisely controlling the aeration and temperature distribution of the compost pile. In the production process, the compost pile is usually stacked in windrows, with a height of 1.5-2 meters and a width of 3-5 meters. The windrow turner regularly turns the pile to maintain a stable temperature of 50-60℃, ensuring the killing of pathogens and the complete decomposition of organic matter. In addition, the equipment investment of the windrow composting method is relatively controllable, and the production process is mature, making it suitable for producing general-purpose organic fertilizers. The products are mainly supplied to large-scale planting bases and grain-producing areas, effectively reducing the reliance of large-scale agricultural production on chemical fertilizers and solving the problem of disposing of large quantities of agricultural waste. However, this method is subject to significant site limitations, requiring sufficient composting space, and the fermentation cycle is relatively long, usually requiring 25-35 days.

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