Fermentation Bed Non-synchronous Fermentation Theory (also known as Fermentation Bed's "Priestess Married")

Non-Synchronous Fermentation Theory of the Fermentation Bed (Also Known as the "Priestess Married" Concept)

Non-synchronous fermentation, sometimes referred to as the "prostitutes first married" theory, describes how different areas, times, and regions of a fermentation bed can experience varying levels of microbial activity. This is influenced by factors such as nutrient availability, bacterial presence, water level, and ventilation. These differences lead to varied states of fermentation—some areas may be highly active while others remain dormant.

The theory suggests that when conditions are favorable, microbes become active and start fermenting quickly, whereas in less ideal conditions, they remain inactive or "rest." This behavior is similar to the saying “marry before marriage,” where some parts of the bed get started early, while others follow later. Understanding this mechanism helps users better manage their fermentation beds and optimize resource use.

Grasping the concept of non-synchronous fermentation allows users to choose the right type of bacteria and adjust the fermentation intensity based on environmental conditions. This not only saves resources like litter and nutrients but also helps maintain the bed efficiently, reducing costs and minimizing risks.

One of the main benefits of understanding this mechanism is the ability to consciously conserve resources. A well-functioning fermentation bed should work only when needed—when pigs excrete waste, the microbes activate to break it down. When there's no waste, the bed should rest, avoiding unnecessary fermentation. Just like cleaning a house, if the environment is already clean, there’s no need for extra effort.

When pigs defecate, the functional microbes in the bed will focus on the area with the best nutrients, temperature, and airflow. Other areas may remain inactive until conditions improve. This requires the microbes to have a strong dormancy function, which not all products provide. Only certain strains, like Jinbao, can remain dormant for long periods and activate when needed. Like animals that hibernate, not all microbes can sleep, and this capability varies between products.

Some fermentation bed products force microbes into an active state from the start, adding water and nutrients unnecessarily. This leads to premature fermentation, which is wasteful. It's like running a car in idle—consuming fuel without moving. If there's little waste, high-intensity fermentation isn’t needed, and it can cause more harm than good.

Understanding non-synchronous fermentation helps users select the right microbial strains. Strains with strong dormancy functions, such as Jinbao, help avoid over-fermentation, wasted resources, and unnecessary energy consumption. This ensures the fermentation bed operates efficiently and sustainably.

Secondly, this knowledge enables better control of fermentation intensity. In summer, the primary goal is odor control, not heat production. High temperatures are harmful, so non-synchronous fermentation helps reduce heat buildup and improves ventilation. In winter, however, a longer-lasting heat source is beneficial, helping to save on heating costs and improve economic returns.

Third, understanding the theory helps users avoid misinformation and make informed decisions. Some users may misinterpret a lack of immediate fermentation as a faulty product. But fermentation beds often start slowly, especially in areas with little waste. Others might rush to conclude that a product works well just because it starts quickly, but this could be due to pre-activated bacteria, not true effectiveness.

Finally, knowing about non-synchronous fermentation aids in proper maintenance. For example, when setting up a fermentation bed, there's no need to add extra water or nutrients immediately. Over time, natural waste accumulation provides enough nutrition for the microbes to work effectively. Avoiding unnecessary watering reduces the risk of problems like muddy or dead beds, leading to more reliable and cost-effective operation.

Gabion Mesh

Gabion Mesh

Gabion mesh including : heavy gabion/hexagonal mesh, gabion box, gabion mesh sack, welded gabion mesh, Prevention rockfall Mesh.

Gabion mesh's production processes : material inspection- PVC coating- machine weaving- alignment- cutting- edge strengthening- assembly- packing- transporting

The material of gabion mesh is low carbon steel wire, and then will be hot-dipped galvanized, re-plated with Galfan or PVC, so as to improve the durability of the gabion mesh under all sorts of environments.

Applications of gabion mesh :

It has the effect of controlling water capacity, prevent soil and water from flowing,the protecting and improvement of the ecological environment. Gabion can be employed in a variety of ways to stabilize soil conditions around bridges and river bank protection.

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