Honeycomb Ceramic Regenerator

Honeycomb ceramic regenerator has the characteristics of low thermal expansion, large specific heat capacity, large specific surface area, low pressure drop, small thermal resistance, good thermal conductivity, and good thermal shock resistance. It is widely used in the regenerative high-temperature combustion technology (HTAC) of the metallurgical machinery industry. It combines technologies such as high-efficiency combustion of recovered flue gas waste heat and reduction of NOX emissions, so as to achieve the purpose of limiting energy saving and reducing NOX emissions.

Honeycomb ceramic regenerators are widely used in energy-saving technologies for industrial thermal engineering equipment, so that industrial equipment can improve efficiency, reduce energy consumption, increase output and improve quality. Honeycomb ceramic regenerator is an important and effective means to solve energy and environmental problems. The cross-sectional holes of the honeycomb ceramic heat storage body mainly have two kinds of hole structures of square and regular hexagon, and the holes are straight channel structures parallel to each other. This structure greatly reduces the resistance through which the pores flow, and increases the efficiency of the single-hole volume heat transfer of the regenerator.

Features

1. Various materials, according to customers and different environments, choose different materials and specifications of products.

2. The hole wall is thin, the capacity is large, the heat storage is large, and the space is small.

3. The hole wall is smooth and the back pressure is small.

4. Long service life, not easy to scum, high temperature deformation after drinking.

5. The product has high quality specifications. During installation, the heat storage bodies are discharged neatly with little misalignment.

6. Good thermal shock resistance, good thermal conductivity, and high mechanical strength.

Function

1. Reduce exhaust heat loss, maximize fuel utilization, and reduce unit energy consumption.

2. Increase the theoretical combustion temperature, improve the combustion conditions, meet the high temperature requirements of thermal equipment, expand the application range of low calorific value fuels, especially the application range of blast furnace gas, and increase the utilization rate of fuel calorific value.

3. Improve furnace heat exchange conditions, increase equipment output and product quality, and reduce equipment investment.

4. Reduce the exhaust emissions and harmful gas emissions per unit product of thermal engineering equipment, reduce air pollution, and improve the environment.

Application

Iron and steel plants, waste incinerators, waste gas treatment thermal equipment, chemical plants, smelters, power plants, power industry boilers, gas turbines, engineering heating equipment, ethylene cracking furnaces, etc.

Physical And Chemical Indicators