Honeycomb Ceramic Regenerator Ceramic Honeycomb Heat Exchanger for Steel Heater
Product Description
Honeycomb Ceramic Heater is new developed ceramic part, as its features of corrosion resistances, large specific surface area, small heat resistance, good thermal conductivity and excellent thermal-shock resistance, fast heat exchanging and energy saving. It is the best choice for RTO, heat exchanger and other environmental protection and energy saving products. Honeycomb ceramic heat accumulation substrate heat capacity can be achieve at more than J/kgk1000. Use a temperature≥ 1700° C in the heating furnace, roaster, soaking furnace, pyrolysis furnace, fuel can be savings of more than 40%, increase in production for more than 15%. The flue gas temperature below 150° C.
Honeycomb Ceramic Heater is the main components of High Temperature Air Combustion Technology. It has been widely used in various heating furnaces such as pusher-type heating furnace, walking-beam heating furnace, heat treatment furnace, forging furnace, melting furnace, firing furnace and ladle heaters, soaking pit, radiant tube burner, lifting furnace, blast furnace hot blast stove etc.
Functions:
*Lower NOx by avoiding very high peak-temperatures
*CO2 reduction
Fuel consumption decreases CO2 emissions decreases
*Energy saving
Thermal energy from exhaust gases used to heat up combustion air
Higher heat flux from flames
*Equipment size reduction
Uniform heat flux distribution and thermal field uniformity
Volume of the combustion chamber is fully used
Features:
*High working temperature
*Large specifc surface area
*Good thermal conductivity
*All shapes avalible
Honeycomb Ceramic Heater is the main components of High Temperature Air Combustion Technology. It has been widely used in various heating furnaces such as pusher-type heating furnace, walking-beam heating furnace, heat treatment furnace, forging furnace, melting furnace, firing furnace and ladle heaters, soaking pit, radiant tube burner, lifting furnace, blast furnace hot blast stove etc.
Functions:
*Lower NOx by avoiding very high peak-temperatures
*CO2 reduction
Fuel consumption decreases CO2 emissions decreases
*Energy saving
Thermal energy from exhaust gases used to heat up combustion air
Higher heat flux from flames
*Equipment size reduction
Uniform heat flux distribution and thermal field uniformity
Volume of the combustion chamber is fully used
Features:
*High working temperature
*Large specifc surface area
*Good thermal conductivity
*All shapes avalible
Parameters | Unit | standard | typical data | |
Cordierite crystal phase | wt% | ≥90 | 94 | |
Coefficient of Thermal Expansion20-800celsius degree | cm/cm/celsius degree | ≤1.2 | ≤1.5×10-6 | |
Thermal Stability20-650celsius degree | times | ≥1 | 3 | |
Soften Temperature | Celsius degree | ≥1420 | 1440 | |
Compression Strength | Lengthways | MPa | ≥15 | 16.9 |
Horizontal | MPa | ≥2 | 6.2 | |
Specific Weight | Kg/L | ≥0.15 | 0.45-0.5 | |
Porosity | % | 40-45 | 41 | |
Water-absorbing rate | % | 23-27 | 23.8 |
Rotundity shape | Ellipse shape | |||||
Specificationmm | Number of channels (holes /square inch) | Specification (mm) | Number of channels (holes /square inch) | |||
Φ83×85 | 400 | T146.8×77×86.4 | 400 | |||
Φ144×152.4 | 400 | T120.6×80×152.4 | 400 | |||
Φ100×100 | 400 | T169.7×80.7×76.2 | 400 | |||
Φ130×130 | 400 | T144.8×81.3×152.4 | 400 | |||
Φ118×150 | 400 | T144.8×81×76.2 | 400 | |||
Φ103×100 | 400 | T169.7×80.7×101.6 | 400 | |||
Φ150×75 | 400 | T144.8×81.3×100 | 300 | |||
Φ83×125 | 400 | T127×63.5×107 | 300 | |||
Φ150×150 | 300 | T144.8×81.3×70 | 300 | |||
Φ120×100 | 300 | T144.8×81.3×150 | 300 | |||
Φ101.6×100 | 300 | Race track shape | ||||
Φ94×100 | 300 | P120.65× 80.01×76.2 | 400 | |||
Φ85×70 | 300 | P120.65× 80.01× 76.2 | 200 | |||
Φ93×76 | 200 | P144×68×150 | 400 | |||
Φ118×76 | 200 | P125×80×100 | 400 |