Industrial burners have important applications in the power industry, as follows

In thermal power plants, industrial burners are mainly used for boiler combustion. By burning fuels such as coal, oil, and natural gas, high-temperature and high-pressure steam is generated to drive a steam turbine to generate electricity. The performance of the burner directly affects the combustion efficiency and steam output of the boiler.

Advanced burners can achieve efficient combustion, reducing fuel consumption and pollutant emissions. For example, burners with low-nitrogen combustion technology can reduce nitrogen oxide emissions and meet environmental protection requirements. At the same time, the burner can also automatically adjust combustion parameters according to load changes to ensure the stable operation of the boiler.

In some special cases, such as starting a boiler, operating at low load, or dealing with changes in fuel quality, industrial burners can be used as auxiliary combustion equipment. It can provide additional heat to ensure the smooth start and stable operation of the boiler.

Auxiliary burners usually have the characteristics of quick start-up and flexible adjustment, and can provide the required heat in a short time. At the same time, they can also work in coordination with the main burner to improve the reliability and stability of the entire system.

Many devices in the power industry generate a large amount of waste heat during operation, such as gas turbine exhaust gas and industrial furnace tail gas. This waste heat can be recovered and utilized through waste heat boilers to generate steam or hot water for power generation, heating, or other industrial uses.

Industrial burners can be used as auxiliary combustion equipment in waste heat boilers to improve the utilization efficiency of waste heat. When the waste heat temperature is low or unstable, the burner can provide additional heat to ensure the normal operation of the waste heat boiler. At the same time, the burner can also be adjusted according to the characteristics and needs of the waste heat to achieve the best energy utilization effect.

Combined cycle power generation is an efficient power generation method that combines a gas turbine and a steam turbine and uses the high-temperature exhaust gas of the gas turbine as the heat source of the steam turbine to improve power generation efficiency. In a combined cycle power generation system, industrial burners can be used for starting gas turbines and auxiliary combustion to improve the reliability and stability of the system.

The burner can also be adjusted according to the load changes of the combined cycle power generation system to achieve the best operating effect. At the same time, it can also work in coordination with other equipment such as waste heat boilers and steam turbines to improve the energy utilization efficiency of the entire system.