Application of Ceramic Honeycomb Regenerator

2023-09-01 12:11:42

A ceramic honeycomb regenerator is an energy storage refractory material widely used in high-temperature kilns. Its special structure gives it unique advantages in heat storage and heat conduction, and it has become a very frequently used material in the field of thermal engineering. Material is widely used in steel plants, waste incinerators, waste gas treatment thermal equipment, chemical plants, smelting plants, power plants, power industry boilers, gas turbines, engineering heating equipment, ethylene-cracking furnaces, and other industrial kilns.

Application of Ceramic Honeycomb Regenerator

The main purpose of the ceramic honeycomb regenerator is to improve the heat exchange efficiency of thermal equipment while reducing the energy consumption of thermal equipment and maximizing the use of thermal energy. During use, when the high-temperature kiln is heating, the ceramic honeycomb regenerator stores heat. When the high-temperature kiln stops heating, to ensure the temperature in the furnace, the ceramic honeycomb regenerator begins to release its heat to ensure that the temperature in the furnace does not drop rapidly. This ensures that the use of heat during the smelting process reduces fuel consumption.

The cross-sectional holes of honeycomb ceramic regenerators mainly have two hole structures: square and regular hexagonal, and the holes are straight channel structures parallel to each other. This structure greatly reduces the resistance of the pores to flow through, greatly improves the heat exchange efficiency of the single-hole volume of the regenerator, reduces the heat loss of the exhaust gas during use, maximizes the utilization of fuel, and reduces the unit energy consumption. During the combustion process of high-temperature kilns, the theoretical combustion temperature can be increased, combustion conditions can be improved, and fuel usage efficiency can be improved. It can also improve heat exchange conditions in the furnace and increase product output and quality. Not only that, the improvement of combustion efficiency is also effective. Reduces exhaust gas emissions, reduces pollution, and improves the environment.

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