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RCO Regenerative Catalytic Oxidation (RCO) is an organic waste gas treatment equipment that combines low-temperature catalytic oxidation with thermal storage technology. It is used as an environmental protection device for purifying medium and high concentration (1000mg/m ³ -8000mg/m ³) organic waste gas. RCO regenerative catalytic combustion equipment is developed on the basis of RTO regenerative incineration equipm···
RCO Regenerative Catalytic Oxidation (RCO) is an organic waste gas treatment equipment that combines low-temperature catalytic oxidation with thermal storage technology. It is used as an environmental protection device for purifying medium and high concentration (1000mg/m ³ -8000mg/m ³) organic waste gas. RCO regenerative catalytic combustion equipment is developed on the basis of RTO regenerative incineration equipment. A layer of catalyst is arranged on the regenerative ceramic layer of the regenerative equipment to catalyze the combustion and decomposition of the incoming exhaust gas into carbon dioxide and water at 200 ℃ -400 ℃, thereby achieving the purpose of purifying the exhaust gas.
The exhaust gas is first preheated through a ceramic material filling layer (bottom layer) to generate heat storage and exchange. Its temperature almost reaches the temperature set for catalytic oxidation in the catalytic layer (middle layer), at which point some pollutants are oxidized and decomposed.
The exhaust gas continues to be heated through the heating zone (electric heating or natural gas heating can be used) and maintained at the set temperature; It then enters the catalytic layer to complete the catalytic oxidation reaction, which generates CO2 and H2O and releases a large amount of heat to achieve the expected treatment effect.
The exhaust gas is first preheated through a ceramic material filling layer (bottom layer) to generate heat storage and exchange. Its temperature almost reaches the temperature set for catalytic oxidation in the catalytic layer (middle layer), at which point some pollutants are oxidized and decomposed.
The exhaust gas continues to be heated through the heating zone (electric heating or natural gas heating can be used) and maintained at the set temperature; It then enters the catalytic layer to complete the catalytic oxidation reaction, which generates CO2 and H2O and releases a large amount of heat to achieve the expected treatment effect.
After catalytic oxidation, the gas enters other ceramic material filling layers, recovers heat energy, and is discharged into the atmosphere through a rotary valve. The purified exhaust temperature is only slightly higher than the temperature before exhaust gas treatment. The system operates continuously and switches automatically. Through the operation of the rotary valve, all ceramic filling layers complete the cycle steps of heating, cooling, and purification, and heat is recovered.
RCO The process adopts efficient catalysts, low to medium temperature oxidation decomposition, short heating time, and low exhaust temperature
The RCO process is used to purify organic waste gas, which can simultaneously remove multiple organic pollutants. It has the advantages of simple process flow, compact equipment, reliable operation, and long service life
RCO purification efficiency is high, generally reaching over 99%
RCO It has the advantages of low operating costs, easy operation, and easy maintenance, and its heat recovery efficiency can generally reach over 85%
The entire process produces no wastewater, and the purification process does not produce secondary pollution such as NOX
RCO Purification equipment can be used in conjunction with an oven, and the purified gas can be directly reused in the oven for energy conservation and emission reduction purposes
| Product model | THY-RCO10k | THY-RCO20k | THY-RCO30k | THY-RCO40k | THY-RCO50k | THY-RCO60k |
| Processing air volume (m ³/h) | 10000 | 20000 | 30000 | 40000 | 50000 | 60000 |
| Treatment of exhaust gas concentration (mg/m ³) | 100-3500mg/m ³ (mixed gas) | |||||
| Operating temperature (℃) | 300-580 | |||||
| Equipment pressure drop (Pa) | 2000-3000 | |||||
| Purification efficiency (%) | ≧97 | |||||
| Installed power (KW) | ≦50 | ≦80 | ≦140 | ≦180 | ≦130 | ≦150 |
| Note: 1. The above selection is based on conventional processing standards, and other air volume specifications can be designed separately; The actual parameters and models shall be subject to the contract design parameters. | ||||||
The petroleum, chemical, plastic, rubber, pharmaceutical, printing, furniture, textile printing and dyeing, coating, coating, semiconductor manufacturing, synthetic materials and other industries generate medium and high concentration high air volume organic waste gas treatment, which can treat organic substances including benzene, phenols, aldehydes, ketones, ethers, esters, alcohols, alkanes, hydrocarbons, etc.
The exhaust gas is first preheated through a ceramic material filling layer (bottom layer) to generate heat storage and exchange. Its temperature almost reaches the temperature set for catalytic oxidation in the catalytic layer (middle layer), at which point some pollutants are oxidized and decomposed.
The exhaust gas continues to be heated through the heating zone (electric heating or natural gas heating can be used) and maintained at the set temperature; It then enters the catalytic layer to complete the catalytic oxidation reaction, which generates CO2 and H2O and releases a large amount of heat to achieve the expected treatment effect.
The exhaust gas is first preheated through a ceramic material filling layer (bottom layer) to generate heat storage and exchange. Its temperature almost reaches the temperature set for catalytic oxidation in the catalytic layer (middle layer), at which point some pollutants are oxidized and decomposed.
The exhaust gas continues to be heated through the heating zone (electric heating or natural gas heating can be used) and maintained at the set temperature; It then enters the catalytic layer to complete the catalytic oxidation reaction, which generates CO2 and H2O and releases a large amount of heat to achieve the expected treatment effect.
After catalytic oxidation, the gas enters other ceramic material filling layers, recovers heat energy, and is discharged into the atmosphere through a rotary valve. The purified exhaust temperature is only slightly higher than the temperature before exhaust gas treatment. The system operates continuously and switches automatically. Through the operation of the rotary valve, all ceramic filling layers complete the cycle steps of heating, cooling, and purification, and heat is recovered.
RCO The process adopts efficient catalysts, low to medium temperature oxidation decomposition, short heating time, and low exhaust temperature
The RCO process is used to purify organic waste gas, which can simultaneously remove multiple organic pollutants. It has the advantages of simple process flow, compact equipment, reliable operation, and long service life
RCO purification efficiency is high, generally reaching over 99%
RCO It has the advantages of low operating costs, easy operation, and easy maintenance, and its heat recovery efficiency can generally reach over 85%
The entire process produces no wastewater, and the purification process does not produce secondary pollution such as NOX
RCO Purification equipment can be used in conjunction with an oven, and the purified gas can be directly reused in the oven for energy conservation and emission reduction purposes
| Product model | THY-RCO10k | THY-RCO20k | THY-RCO30k | THY-RCO40k | THY-RCO50k | THY-RCO60k |
| Processing air volume (m ³/h) | 10000 | 20000 | 30000 | 40000 | 50000 | 60000 |
| Treatment of exhaust gas concentration (mg/m ³) | 100-3500mg/m ³ (mixed gas) | |||||
| Operating temperature (℃) | 300-580 | |||||
| Equipment pressure drop (Pa) | 2000-3000 | |||||
| Purification efficiency (%) | ≧97 | |||||
| Installed power (KW) | ≦50 | ≦80 | ≦140 | ≦180 | ≦130 | ≦150 |
| Note: 1. The above selection is based on conventional processing standards, and other air volume specifications can be designed separately; The actual parameters and models shall be subject to the contract design parameters. | ||||||
The petroleum, chemical, plastic, rubber, pharmaceutical, printing, furniture, textile printing and dyeing, coating, coating, semiconductor manufacturing, synthetic materials and other industries generate medium and high concentration high air volume organic waste gas treatment, which can treat organic substances including benzene, phenols, aldehydes, ketones, ethers, esters, alcohols, alkanes, hydrocarbons, etc.
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400-808-2272
400-808-2272400-808-2272 
szthy039@szthy.com 
2109, Building A, Zhiyun Industrial Park, Longhua District, Shenzhen 139-0244-2558 szthy025@szthy.com No. 3 Hongfu Second Street, Huangjiang Town, Dongguan City 
Tian Haoyang
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