Place of use for biological deodorization equipment

The biological deodorization box adopts a fiberglass layout, has anti-corrosion function, strong teamwork, and is easy to transport and install; When the capacity is in progress, it is easy to implement by simply adding components; It also facilitates separation under the accumulation of gas sources. Rationale: Trick the pure biological filler layer to create microorganisms that can synthesize odorous gas identity at high temperatures. The biological deodorization boxes consumed by our company are characterized by important sources such as spring sources and networks, gas pipeline ideas, pre-treatment sections, special bacteria biological deodorization bed adsorption synthesis main body, enhanced adsorption section, and emission system. After the source of foul gas is collected and disposed of, special bacteria microbial adsorption analysis is conducted after pre-treatment biological analysis to deceive pure biological material carrier fillers, At the same time, the process premise is fully utilized to maximize the influence of specific bacteria, so that the target substance can be effectively removed to achieve odor management.

The center of the biological deodorization box is a biocatalytic oxidation bed. The activation energy of the biocatalytic oxidation bed is reflected by the biochemical response of the catalytic enzyme, which improves the biochemical degradation speed of odorous materials. Efficient deodorizing bacteria have strong targeting and high removal efficiency for benzene series compounds. The low concentration industrial wastewater in the recycling water system is prepared, and there is no need to add biological nutrient solution during operation. The low operation achieves synchronous management of water phase harmony and purification without secondary purification. The metabolic process of odorous materials entering microbial cells is synthesized and transformed into harmful and simple materials as energy and nutrients, which is transforming energy to provide energy for the development and breeding of microorganisms in the filter (tank) tower, and to continuously transform odorous gas materials. Microorganisms exist as a group, and multiple microorganisms coexist in a situation. The characteristics of microorganisms are both similar and different, and different purification communities can find microorganisms that degrade them. It can handle and purify multiple types of purification simultaneously in one installation. Biological strains will cause the degradation of substances into carbon dioxide and water without secondary purification. The reaction formula for biodegradation is that microorganisms will die in the latter part and persist in the latter part. Preserved microorganisms can grow into inferior bacteria in a short period of time. Therefore, the penalty load for biofiltration treatment is that when the concentration of purification increases, it can be disposed of in a short period of time, but it can quickly return to normal.

Odor gas not only has a serious impact on the ecological environment, but also has a great harm to human health. It will cause obstacles and lesions in the central nervous system, causing chronic and acute disease diseases. The threshold of heterocyclic spices is low, the odor intensity is high, and it is unpleasant. During the production and packaging process, a large amount of odors can easily escape, causing physical and mental discomfort to the internal and surrounding populations of the company. The exhaust gas produced by the factory has a low concentration, complex composition, difficult monitoring, and difficult governance. Foreign countries began research on the control of odor gas pollution as early as the late 1950s, and have accumulated rich theoretical knowledge and practical experience. China only conducted research on the investigation, testing, and standards of odor gas pollution in the 1980s, while research on deodorization technology began in the 1990s. The purpose of various odor gas treatment methods is to change the material structure of the odor gas and eliminate the odor through physical, chemical, and biological processes. The common methods for treating odorous gases include combustion, oxidation, absorption, adsorption, neutralization, and biological methods.

The principle is to place microorganisms specially cultivated by biological methods on the biological filler, and use circulating liquid spraying to moisten it, so that the microorganisms continuously adhere and grow on the surface of the biological filler and form a biofilm. When toxic, harmful, and foul smelling waste gases pass through biofilms, they are purified and degraded.