RTO Heat Exchange Honeycomb Ceramic
Honeycomb ceramic is a porous industrial ceramic. It has large specific surface area, small resistance, uniform fluid distribution and high separation efficiency. It is widely used in chemical, metallurgy, gas, food, environmental protection and other industries. The material is mainly divided into cordierite, mullite, and alumina ceramic.
Regenerative high-temperature air combustion is a new combustion technology with great energy saving and environmental protection. Honeycomb ceramic regenerator is a key component of regenerative burners, widely used in steel, machinery, building materials, chemicals, petrochemicals, coatings. In various industries such as non-ferrous metal smelting, such as heating furnaces, hot blast stoves, heat treatment furnaces, cracking furnaces, roasters, melting furnaces, soaking furnaces, oil and gas boilers, etc. The technology makes the two regenerators alternately absorb heat and release heat through the reversing device, maximally recovers the heat of the flue gas, and then heats the combustion air and gas in the furnace to above 1000 ° C, even if the low calorific value of the inferior fuel can Achieve stable ignition and high-efficiency combustion, saving fuel by 25%-30%, increasing production by more than 15%, slab oxidation loss by more than 40%, NOx emission less than 100ppm emission of flue gas temperature below 150 °C, greatly reducing the earth The greenhouse effect of the atmosphere. If most industrial furnaces in the country adopt HTAC technology, their economic and social benefits are immeasurable, which will greatly alleviate the shortage of energy and greatly improve the living environment of human beings.
RTO Heat Exchange Honeycomb Ceramic
Honeycomb ceramic is a porous industrial ceramic. It has large specific surface area, small resistance, uniform fluid distribution and high separation efficiency. It is widely used in chemical, metallurgy, gas, food, environmental protection and other industries. The material is mainly divided into cordierite, mullite, and alumina ceramic.
Regenerative high-temperature air combustion is a new combustion technology with great energy saving and environmental protection. Honeycomb ceramic regenerator is a key component of regenerative burners, widely used in steel, machinery, building materials, chemicals, petrochemicals, coatings. In various industries such as non-ferrous metal smelting, such as heating furnaces, hot blast stoves, heat treatment furnaces, cracking furnaces, roasters, melting furnaces, soaking furnaces, oil and gas boilers, etc. The technology makes the two regenerators alternately absorb heat and release heat through the reversing device, maximally recovers the heat of the flue gas, and then heats the combustion air and gas in the furnace to above 1000 ° C, even if the low calorific value of the inferior fuel can Achieve stable ignition and high-efficiency combustion, saving fuel by 25%-30%, increasing production by more than 15%, slab oxidation loss by more than 40%, NOx emission less than 100ppm emission of flue gas temperature below 150 °C, greatly reducing the earth The greenhouse effect of the atmosphere. If most industrial furnaces in the country adopt HTAC technology, their economic and social benefits are immeasurable, which will greatly alleviate the shortage of energy and greatly improve the living environment of human beings.
Performance Characteristics:
Large specific surface area, small resistance, uniform fluid distribution and high separation efficiency.
Widely used in chemical, metallurgical, gas, food, environmental protection and other industries.
Chemical Analysis
Composition |
Value (%) |
Al2O3 |
65±5 |
SiO2 |
25~35 |
MgO |
1~5 |
Fe2O3+TiO2 |
3~5 |
Others |
<5 |
Technical Data Sheet
Index |
Unit |
Value |
Density |
g/cm3 |
1.7~2.0 |
Coefficient of heat expansion |
(X10-6K-1)(20-800℃) |
6.0 |
Specific Heat |
(J/Kg.k)(20~1000℃) |
900~1150 |
Thermal Conductivity |
(20~1000℃) |
1.2~1.8 |
Impact Thermal Resistance |
(℃/min) |
≥350 |
Max.Working Temp. |
℃ |
1320 |
Water absorption |
% |
15~25 |
Dimension And Other Physical Properties
Dimension |
Quantity of channels |
Wall thickness |
Outside wall thickness |
Channel Width |
Void section |
Weight piece |
150×150×300 |
25×25 |
1.0mm±0.1 |
2.2mm±0.15 |
4.8-5.0mm |
67% |
4.0-5.0kg |
150×150×300 |
32×32 |
0.9mm±0.1 |
2.2mm±0.15 |
3.8-3.9mm |
65% |
4.6-5.6kg |
150×150×300 |
40×40 |
0.68mm±0.1 |
2.0mm±0.15 |
2.9-3.1mm |
65% |
4.7-5.7kg |
150×150×300 |
43×43 |
0.65mm±0.1 |
2.0mm±0.15 |
2.7-2.9mm |
64% |
4.8-5.8kg |
150×150×300 |
50×50 |
0.6mm±0.1 |
1.8mm±0.15 |
2.3-2.5mm |
62% |
4.8-5.8kg |
150×150×300 |
60×60 |
0.45mm±0.1 |
1.8mm±0.15 |
1.9-2.1mm |
61% |
5.0-6.0kg |
Performance Characteristics:
Large specific surface area, small resistance, uniform fluid distribution and high separation efficiency.
Widely used in chemical, metallurgical, gas, food, environmental protection and other industries.
Chemical Analysis
Composition |
Value (%) |
Al2O3 |
65±5 |
SiO2 |
25~35 |
MgO |
1~5 |
Fe2O3+TiO2 |
3~5 |
Others |
<5 |
Technical Data Sheet
Index |
Unit |
Value |
Density |
g/cm3 |
1.7~2.0 |
Coefficient of heat expansion |
(X10-6K-1)(20-800℃) |
6.0 |
Specific Heat |
(J/Kg.k)(20~1000℃) |
900~1150 |
Thermal Conductivity |
(20~1000℃) |
1.2~1.8 |
Impact Thermal Resistance |
(℃/min) |
≥350 |
Max.Working Temp. |
℃ |
1320 |
Water absorption |
% |
15~25 |
Dimension And Other Physical Properties
Dimension |
Quantity of channels |
Wall thickness |
Outside wall thickness |
Channel Width |
Void section |
Weight piece |
150×150×300 |
25×25 |
1.0mm±0.1 |
2.2mm±0.15 |
4.8-5.0mm |
67% |
4.0-5.0kg |
150×150×300 |
32×32 |
0.9mm±0.1 |
2.2mm±0.15 |
3.8-3.9mm |
65% |
4.6-5.6kg |
150×150×300 |
40×40 |
0.68mm±0.1 |
2.0mm±0.15 |
2.9-3.1mm |
65% |
4.7-5.7kg |
150×150×300 |
43×43 |
0.65mm±0.1 |
2.0mm±0.15 |
2.7-2.9mm |
64% |
4.8-5.8kg |
150×150×300 |
50×50 |
0.6mm±0.1 |
1.8mm±0.15 |
2.3-2.5mm |
62% |
4.8-5.8kg |
150×150×300 |
60×60 |
0.45mm±0.1 |
1.8mm±0.15 |
1.9-2.1mm |
61% |
5.0-6.0kg |
Application
Application