The organic fertilizer turning machine has excellent optimization ability for the fermentation environment during fertilizer fermentation, laying a solid foundation for the production of high-quality fertilizers.

In terms of temperature regulation, the organic fertilizer turning machine plays a key role. During the fermentation process, the metabolic activity of microorganisms generates heat. If not regulated in a timely manner, excessively high local temperatures may inhibit microbial growth and even lead to fermentation failure. The flipping machine continuously flips the material to evenly dissipate heat and avoid local overheating. At the same time, in cold weather, the flipping operation can promote the accumulation of internal heat in the materials, maintain a suitable fermentation temperature, and provide a stable living environment for microorganisms.

Humidity control is also an important part of optimizing the fermentation environment. The organic fertilizer turning machine can make the moisture distribution in the material more uniform during the turning process. It thoroughly mixes the parts with higher humidity and drier parts to ensure that the humidity of the entire fermentation material is within the optimal range for microbial growth. Appropriate humidity is beneficial for the metabolism of microorganisms and promotes the smooth progress of fermentation reactions.

Oxygen supply cannot be ignored either. The continuous flipping of the stacker allows air to fully enter the material pile, ensuring an adequate supply of oxygen. Adequate oxygen is a necessary condition for aerobic microorganisms to carry out respiration, which can accelerate the decomposition and transformation of organic matter and improve fermentation efficiency. Moreover, good ventilation conditions can reduce odors caused by anaerobic environments and maintain fresh air in the fermentation site.

In addition, the flipping action of the organic fertilizer turning machine can effectively improve the permeability of materials. It breaks the originally compact structure of the material, creating more gaps between material particles, which is conducive to gas circulation and exchange. This not only helps microorganisms obtain oxygen, but also eliminates waste gases such as carbon dioxide generated during the fermentation process, maintaining the dynamic balance of the fermentation environment.

By optimizing the fermentation environment in terms of temperature, humidity, oxygen, and permeability, the organic fertilizer turning machine has created an ideal living and breeding space for microorganisms. In such an environment, microorganisms can fully exert their functions, quickly and thoroughly converting organic materials into high-quality organic fertilizers, improving the quality and efficiency of fertilizers.