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The principle of ceramic thermal storage body is mainly to utilize the high specific surface area and porosity of honeycomb shaped ceramic, adjust the temperature by absorbing, storing and releasing heat, and achieve efficient energy utilization and energy conservation. twelve Ceramic thermal storage body, also known as thermal storage ceramic, is a new type of ceramic technology, usually in a honeycomb shape. Its working principle is based on absorbing thermal energy for heat storage, and then releasing the stored thermal energy when needed, thereby improving thermal efficiency. This material or device can store thermal energy in industrial thermal equipment and release it when needed, thereby regulating temperature and achieving efficient energy utilization and conservation. The advantages of honeycomb ceramic thermal storage include high heat storage density and long storage time, as well as its energy-saving and environmentally friendly features. In practical applications, such as the heat storage combustion method for industrial organic waste gas treatment, ceramic heat storage bodies achieve efficient heat recovery by absorbing and releasing heat, with a heat recovery rate of over 90%. This technology is not only applied to the treatment of industrial waste gas, but also widely used in energy-saving aspects of industrial thermal equipment. It can effectively improve the efficiency of thermal equipment, reduce energy consumption, and increase the overall product quantity and quality of thermal equipment. The structural and performance advantages of honeycomb ceramic heat storage materials have led to their widespread application in regenerative heating furnaces. Compared with thermal storage balls, honeycomb ceramics have the advantages of small volume, light weight, large specific surface area, high fire resistance, and large heat transfer capacity. The straight airflow channel reduces the loss of airflow resistance, which is conducive to achieving low oxygen combustion, uniform furnace temperature, rapid heat transfer, greatly reducing oxidation loss and NOx gas generation, and significantly improving environmental protection and energy saving effects.
Product Parameters
size
Number of holes
Inner wall thickness
Outer wall thickness
Hole width
Opening rate
Specific surface area
150⨯150⨯300
25⨯25
0.9mm±0.3
1.8mm±0.3
4.8-5.0mm
67%
544
150⨯150⨯300
32⨯32
0.8mm±0.3
1.8mm±0.3
3.8-4.0mm
69%
710
150⨯150⨯300
40⨯40
0.65mm±0.3
1.8mm±0.3
2.9-3.1mm
64%
853
150⨯150⨯300
43⨯43
0.60mm±0.3
1.8mm±0.3
2.7-2.9mm
64%
920
150⨯150⨯300
50⨯50
0.50mm±0.3
1.0mm±0.3
2.3-2.5mm
64%
1067
150⨯150⨯300
60⨯60
0.45mm±0.3
0.9mm±0.3
1.9-2.1mm
64%
1280
project
Thermal shock resistance
Keep at350 ºC for 30 minutes, quickly remove and cool at room temperature for 30 minutes. Repeat this process continuously for 3 times
muffle furnace
compressive strength
A-axis
>=16Mpa
Compression strength machine
B-axis
>=6Mpa
Thermal expansion coefficient (room temperature -800 ºC)
