Low-nitrogen burners are important equipment installed on industrial fuel oil boilers and gas boilers to control pollutant emissions. They adjust the combustion air and combustion head, stabilize the ignition and complete combustion of the fuel, improve the combustion efficiency and reduce the content of ammonia oxides, and obtain the best combustion parameters to meet emission standards.
The fuels suitable for low-nitrogen burners include natural gas, coalbed methane, biogas, artificial gas, refinery gas, industrial tail gas and other gases, light oil, heavy oil, coal tar and other oil products and solid fuels such as coal powder!
Low-nitrogen burners are widely used in various combustion and heating occasions such as power generation boilers, industrial boilers, thermal oil furnaces, industrial kilns, incinerators, heating furnaces, etc.
Technical features of split low-nitrogen burners:
1. Ultra-low nitrogen gas burner.
2. Digital burner management system, two-stage progressive/proportional operation.
3. The flue gas external circulation system mixes part of the flue gas with the combustion air and sends it to the combustion chamber for combustion. The mixed combustion air can reduce the temperature and oxygen concentration in the combustion chamber and effectively inhibit the generation of NOx.
4. Multiple nozzles and decentralized combustion prevent the flame from being too concentrated to cause high oxidation reaction.
5. Three servo motors are used to control the ratio of combustion air volume, gas volume and flue gas volume respectively.
6. A flange and a high temperature resistant insulation pad are used to connect and fix with the boiler.
7. The three-phase motor drives the fan.
8. UV flame monitor detects flame.
9. Standard electrical protection level IP40.
Applicable industries:
1. Cement and mining: equipment rotary kiln, drying application
2. Energy: boiler equipment, hot air furnace
3. Metal: steel, aluminum, copper, forging and heat treatment equipment
4. Oil and gas: petrochemical furnace, process equipment (tracer tube, process burner) in refineries and oil and gas plants
5. Asphalt mixing plant, incinerator, foundry machinery, industrial furnace and other supporting equipment for thermal machinery.
Low-nitrogen burners are important equipment installed on industrial fuel oil boilers and gas boilers to control pollutant emissions. They adjust the combustion air and combustion head, stabilize the ignition and complete combustion of the fuel, improve the combustion efficiency and reduce the content of ammonia oxides, and obtain the best combustion parameters to meet emission standards.
The fuels suitable for low-nitrogen burners include natural gas, coalbed methane, biogas, artificial gas, refinery gas, industrial tail gas and other gases, light oil, heavy oil, coal tar and other oil products and solid fuels such as coal powder!
Low-nitrogen burners are widely used in various combustion and heating occasions such as power generation boilers, industrial boilers, thermal oil furnaces, industrial kilns, incinerators, heating furnaces, etc.
Technical features of split low-nitrogen burners:
1. Ultra-low nitrogen gas burner.
2. Digital burner management system, two-stage progressive/proportional operation.
3. The flue gas external circulation system mixes part of the flue gas with the combustion air and sends it to the combustion chamber for combustion. The mixed combustion air can reduce the temperature and oxygen concentration in the combustion chamber and effectively inhibit the generation of NOx.
4. Multiple nozzles and decentralized combustion prevent the flame from being too concentrated to cause high oxidation reaction.
5. Three servo motors are used to control the ratio of combustion air volume, gas volume and flue gas volume respectively.
6. A flange and a high temperature resistant insulation pad are used to connect and fix with the boiler.
7. The three-phase motor drives the fan.
8. UV flame monitor detects flame.
9. Standard electrical protection level IP40.
Applicable industries:
1. Cement and mining: equipment rotary kiln, drying application
2. Energy: boiler equipment, hot air furnace
3. Metal: steel, aluminum, copper, forging and heat treatment equipment
4. Oil and gas: petrochemical furnace, process equipment (tracer tube, process burner) in refineries and oil and gas plants
5. Asphalt mixing plant, incinerator, foundry machinery, industrial furnace and other supporting equipment for thermal machinery.