1Photolytic exhaust gas purification deviceProduct Introduction

The photocatalytic exhaust gas purification device has the characteristics of low operating cost, small equipment footprint, light weight, and no noise. The purification efficiency of the photocatalytic exhaust gas purification device is 95%.

IIPhotolytic exhaust gas purification deviceworking principle

1. O3 strong catalytic oxidant is used for exhaust gas catalytic oxidation, which destroys and transforms harmful substances into low molecular weight substances;

2. Catalyst coating, which generates activity and enhances catalytic oxidation under C-band laser;

3. During the decomposition process, high ozone UV beams are generated to decompose oxygen molecules in the air, producing free oxygen, also known as reactive oxygen species. Due to the imbalance of positive and negative electrons carried by free oxygen, it needs to combine with oxygen molecules to produce ozone; As is well known, ozone has a strong oxidizing effect on organic matter;.

IIIPhotolytic exhaust gas purification devicePerformance Characteristics

1. Easy to operate and convenient, the lamp needs to be replaced every 10000 hours (3-4 years);

2. Energy saving: Low operating costs;

3. Adaptation conditions: It can operate normally in environments ranging from -30 ℃ to+80 ℃, and can also operate normally in humid and saturated environments;

4. The equipment is made of stainless steel material and is corrosion-resistant in acidic gases.

4Photolytic exhaust gas purification deviceScope of Application

Mainly used for the treatment of toxic and harmful gases, odors, and foul odors in various fields such as paint spraying, chemical industry, paper industry, tire and rubber production plants, automobile production, sewage treatment, sludge and waste gas treatment, leather industry, printing plants, spice production industry, feed and breeding farms, pesticide production, and tobacco industry. There are over 900 types of gas substances involved, mainly including hydrogen sulfide, ammonia nitrogen, thiols, thioethers, benzene, nitro groups, hydrocarbons, and aldehydes.