在使用全自动青贮压缩机制作青贮时,必须停止喂入机器的设定范围内的饲料,以使饲料的密度达到最佳,因为密度越高,内部残留的空气越少。相反,饲料中的空气越多,在我们理解青贮的重要性之前,首先要了解包裹后青贮中的氧气是如何被消耗的!
First of all, the respiration of plants, although the plants are shredded by us, but the plant cells are still breathing all the time. They suck in oxygen, and they exhale carbon monoxide. The whole process is to consume organic matter in plants. Completed, the more oxygen, the more organic matter is consumed, that is, the more dry matter loss we often say, and if there is too much oxygen remaining in the feed, the large amount of heat generated by the respiration will cause the feed to heat up. If the feed temperature is too high, it is likely to cause other bad reactions, resulting in the loss of a large amount of nutrients in the feed. Today, Xiaobian gives everyone a way to reduce the loss of dry matter:
In order to reduce the dry matter loss of silage, the best and most effective way is to increase the density of the feed and add the appropriate amount of silage starter according to the actual situation.
The chemical reaction of plant respiration is as follows: C6H12O6+6O2=6CO2+ 6H2O+ 2821KJ. The process of respiration is a process in which the organic matter contained in the plant and the oxygen react chemically to produce carbon monoxide and water and energy. The energy generated by the respiration brings about the temperature change of the feed, so the fever and the plant occurring when the silage is produced There is a certain relationship between respiration.
在植物呼吸的同时,青贮中残留的一些需氧腐败细菌和霉菌也会消耗饲料中的剩余氧气,青贮中所含的葡萄糖、果糖、蛋白质等物质作为反应物发生代谢反应,产生霉菌毒素(如黄曲霉毒素、青霉素、黄曲霉毒素等)以及一些导致青贮变质的物质。因此,青贮的密实度不足会持续很长时间,导致发酵后青贮质量差。虽然这个问题很严重,但我们可以尽最大努力避免这种情况。全自动青贮压缩机可以最大限度地压实饲料,减少干物质的损失,改善青贮的质量。