"Invisible Guardian" of Waste Incineration Plant: How Does Ozone Decomposition Catalyst Purify Waste Gas and Protect Health?

Waste incineration is one of the important ways to treat urban waste, but a large amount of harmful gases, including ozone, are produced during the incineration process. These gases not only pollute the environment, but also cause serious harm to human health. Fortunately, the emergence of ozone decomposition catalysts provides an efficient solution for waste gas treatment in waste incineration plants.
Hazardous gases produced by garbage incineration
A variety of harmful gases are produced during garbage incineration, mainly including:
Ozone (O₃): A strong oxidizing gas that irritates the respiratory tract and causes symptoms such as coughing and chest tightness. Long-term exposure may damage lung function.
Dioxin: A highly toxic substance that is carcinogenic and can damage the human immune system, reproductive system, etc.
Nitrogen oxides (NOx): It irritates the respiratory tract and causes diseases such as asthma. It also reacts with water vapor in the air to form acid rain.
Sulfur oxides (SOx): It irritates the respiratory tract and causes symptoms such as coughing and wheezing. It also reacts with water vapor in the air to form acid rain.
Particulate matter (PM): It enters the lungs, causes respiratory diseases, and even increases the risk of cardiovascular disease.
Ozone decomposition catalyst:The "purification guard" of waste gas treatment
Ozone decomposition catalyst is a material that can efficiently decompose ozone. It converts ozone into harmless oxygen through catalysis, thereby reducing the ozone concentration in the waste gas. Adding ozone decomposition catalysts to the waste gas treatment system of waste incineration plants can significantly reduce ozone emissions and reduce harm to the environment and human health.
Application of ozone decomposition catalysts in waste gas treatment in waste incineration plants
Efficient decomposition: Ozone decomposition catalysts can quickly decompose ozone, with a purification efficiency of more than 99%, effectively reducing the ozone concentration in waste gas.
Co-treatment: Some ozone decomposition catalysts can also synergistically treat other harmful gases, such as nitrogen oxides and volatile organic compounds, to improve waste gas treatment efficiency.
Safety and environmental protection: The catalyst itself does not produce harmful substances, is safe and non-toxic, and is suitable for use in the environment of waste incineration plants.
Durable: The catalyst has a long service life, does not need to be replaced frequently, and is economical and practical.
Safeguarding the environment and health
By applying ozone decomposition catalysts in the waste gas treatment system of waste incineration plants, the emission of harmful gases such as ozone can be effectively reduced, reducing harm to the environment and human health. This not only helps to improve air quality, but also provides protection for people's healthy lives.
Future Outlook
As environmental protection requirements continue to increase, the application of ozone decomposition catalysts in waste gas treatment in waste incineration plants will become more extensive. In the future, we may see more waste gas treatment technologies based on ozone decomposition catalysts emerge, making greater contributions to environmental protection and human health.