1、 Overview
Odor is one of the six major public hazards that pollute the environment and harm human health, second only to noise. Due to the fact that many sewage treatment facilities in the sewage treatment plant are open water tanks, the main sources of pollution come from regulating tanks, anaerobic tanks, aerobic tanks, sedimentation tanks, and sludge tanks

The odorous gases emitted from places such as sludge concentration tanks and sludge dewatering rooms belong to unorganized non-point source emissions. The main components of the odorous gases are hydrocarbons, benzene derivatives, and hydrogen sulfide gas. So the odor of sewage emitted into the atmosphere is bound to affect

Sound to the surrounding area. With the rapid development of China's social economy, the improvement of people's living standards, and the growing public environmental awareness. The public's attention to the odor from pollution treatment plants is gradually increasing, and odor treatment is becoming increasingly important. Our company is

While conducting research on water treatment, we have also focused our scientific research efforts on the development of odor treatment technology. Through decades of persistent efforts and the digestion and absorption of advanced foreign technologies, our company has developed LVHCH high-efficiency deodorization technology.
2、 The basic principle of LVHCH deodorization technology
Deodorization engineering includes: sealing of pollution sources, transportation of odorous gases, and treatment technologies for odorous gases. LVHCH deodorization technology adopts a combination process of chemical treatment and biological treatment, fully considering the complexity of odor gas components.

3、 Process flow

4、 Process characteristics
1. The gas collection device has low cost and easy maintenance;
2. High standards, strong targeting and adaptability;
3. Significant technological advantages;
4. High safety, stable operation, and significant effectiveness;
5. Efficient and reliable, with a processing rate of over 90-95%;
6. The combination of chemical and biological processes, leveraging the strengths of combination processes, reduces operating costs.