Categories: Blogul sistemului de oxidare termică

Care sunt poluanții comuni controlați de un sistem de oxidare termică?

In modern industrial processes, thermal oxidizers are an essential part of the air pollution control system. Thermal oxidizers help remove pollutants from industrial exhaust streams. In the following paragraphs, we will discuss the common pollutants controlled by a sistem de oxidare termică.

1. Compuși organici volatili (COV)

Volatile Organic Compounds (VOCs) are one of the most common pollutants that thermal oxidizers control. VOCs are carbon-based chemicals that have a high vapor pressure at room temperature. The sources of VOCs include petrochemical plants, paint and coating plants, and printing industries. When the VOCs are released into the atmosphere, they react with nitrogen oxides and sunlight to produce ozone (O3) and smog. The thermal oxidizer system can oxidize the VOCs by raising the temperature in the combustion chamber to a high temperature, which will break down the VOCs into less harmful substances.

2. Poluanți atmosferici periculoși (PAA)

Hazardous Air Pollutants (HAPs) are another common group of pollutants that thermal oxidizers control. HAPs are chemicals known to cause cancer, birth defects, and other serious health effects. The sources of HAPs include chemical plants, petroleum refineries, and waste incinerators. The thermal oxidizer system will treat HAPs by oxidizing them at high temperatures, which will transform them into less hazardous chemicals.

3. Oxizi de azot (NOx)

Nitrogen Oxides (NOx) are the third most common pollutants that thermal oxidizers control. NOx is a group of highly reactive gases that form when fuels are burned at high temperatures. The sources of NOx include power plants, industrial boilers, and diesel engines. When NOx is released into the atmosphere, it reacts with other compounds and sunlight to form smog and acid rain. The thermal oxidizer system will control NOx by reducing the temperature in the combustion chamber, which will prevent the formation of NOx and convert them into nitrogen and oxygen.

4. Carbon Monoxide (CO)

Carbon Monoxide (CO) is a colorless, odorless gas that is highly toxic to humans and animals. CO is produced when fuels are burned in insufficient oxygen conditions. The sources of CO include power plants, industrial furnaces, and internal combustion engines. The thermal oxidizer system will remove CO by oxidizing it at high temperatures, which will transform it into carbon dioxide (CO2).

5. Particule în suspensie (PM)

Particulate matter (PM) is a complex mixture of tiny particles that can cause serious health effects when inhaled. The sources of PM include power plants, industrial boilers, and diesel engines. The thermal oxidizer system will control PM by passing the exhaust stream through a series of filters, which will remove the particles before they are released into the atmosphere.

6. Dioxid de sulf (SO2)

Sulfur dioxide (SO2) is a gas produced when fuels containing sulfur are burned. SO2 is a major contributor to acid rain, which can cause damage to crops, forests, and buildings. The sources of SO2 include power plants, smelters, and diesel engines. The thermal oxidizer system will control SO2 by oxidizing it into sulfur trioxide (SO3) and then into sulfuric acid (H2SO4), which can be removed from the exhaust stream using scrubbers.

7. Hazardous Organic Air Pollutants (HAPs)

Hazardous Organic Air Pollutants (HAPs) are a group of organic chemicals known to cause serious health effects. The sources of HAPs include chemical plants, refineries, and waste incinerators. The thermal oxidizer system will remove HAPs by oxidizing them at high temperatures, which will transform them into less harmful substances.

8. Heavy Metals

Heavy metals are a group of metallic elements that can cause serious health effects when they are inhaled. The sources of heavy metals include power plants, smelters, and waste incinerators. The thermal oxidizer system will control heavy metals by capturing them using filters or scrubbers.

Introducere

We are a high-end equipment manufacturing company that specializes in comprehensive treatment of volatile organic compounds (VOCs) and carbon reduction and energy-saving technologies. Our core technology team comes from the Aerospace Liquid Rocket Engine Institute (Aerospace Sixth Academy), with more than 60 R&D technical personnel, including three senior engineers at the level of researcher and 16 senior engineers. We have four core technologies: thermal energy, combustion, sealing, and self-control. We have the ability to simulate temperature fields and air flow fields, ceramic heat storage material performance, molecular sieve adsorbent material selection, and VOCs organic matter high-temperature incineration and oxidation characteristics testing.

Our company has established an RTO technology R&D center and waste gas carbon reduction and emission reduction engineering technology center in the ancient city of Xi’an, and has a 30,000m² production base in Yangling. The sales volume of RTO equipment is leading globally.

Platforme de cercetare și dezvoltare

Platformă experimentală pentru tehnologia eficientă de control al combustiei – We have a comprehensive combustion control system that can assist in the development of better combustion strategies.
Molecular Sieve Adsorption Performance Experimental Platform – Our experimental platform uses molecular sieve adsorbents and has a strong ability to screen out the most effective adsorbent materials.
Efficient Ceramic Heat Storage Technology Experimental Platform – Our efficient ceramic heat storage technology platform is highly effective at storing heat and reducing energy consumption.
Ultra-High Temperature Waste Heat Recovery Experimental Platform – This experimental platform aims to recover as much waste heat as possible to reduce energy waste and improve environmental protection.
Platformă experimentală de tehnologie de etanșare a fluidelor gazoase – This experimental platform is highly efficient in sealing gases and preventing leakage in high-temperature environments.

Each platform is designed to provide accurate and reliable data to improve our technology, and we continuously improve our experimental platforms to meet the changing needs of customers.

Brevete și premii

On core technologies, we have applied for 68 patents, including 21 invention patents, and the patent technology basically covers key components. Among them are 4 authorized invention patents, 41 authorized utility model patents, 6 authorized design patents, and 7 authorized software copyrights.

Capacitatea de producție

Linie de producție automată de sablare și vopsire din plăci de oțel și profil – Our automatic shot blasting and painting production line can efficiently clean and paint steel plates and profiles.
Linie de producție de sablare manuală – Our manual shot blasting production line can process various types of workpieces.
Echipamente pentru îndepărtarea prafului și protecția mediului – We have advanced dust removal and environmental protection equipment to ensure a clean and healthy working environment.
Camera de pictură automată – Our automatic painting room can automatically paint various types of workpieces with high efficiency and quality.
Camera de uscare – Our drying room is equipped with advanced drying equipment to ensure the quality of the drying process.

De ce să ne alegeți

We have a strong and experienced R&D team that can provide customized solutions for customers.
Our advanced technology and equipment can ensure high-quality products and services.
We have a complete quality management system to ensure product quality and customer satisfaction.
We have a dedicated after-sales service team that can provide comprehensive technical support and timely response to customer needs.
We have a global sales network that can provide customers with timely and convenient services.
We are committed to environmental protection and sustainable development, and our products can effectively reduce carbon emissions and save energy.

Autor: Miya

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