Infrared Honeycomb Ceramic Plate

Ceramic Infrared Honeycomb Description: Compared with other common fuel stove, its applications as follows 1: Energy saving 20-50%, 2: Flameless combustion and low noise, 3: It could largely reduce harmful gas from CO, Nox (dropped more than 70%). In addition, the ceramic take advantage of its good performance to enlarge surface area and burning surface so that it effects more heat accumulation and combustion supporting, which reaches higher energy as per customers' requests. Infrared honeycomb ceramic plate used in combustion oven, using modern advanced science and technology and selecting high-purity and high-quality cordierite. Ceramic Infrared Honeycomb combustion adopts ceramic plate with multiple punching as burning furnace end. Since the gas in the infrared combustion implements can commingle pollution emission release goes down. Also the infrared ray radiation has high penetrability, inspiring the resonance of water molecule, pervading heat to the nut of clarified subjects equally, the heating and drying efficiency are improved. So, using the infrared combustion implements to heat, dry and heat preserved, the energy can be saved and pollution can be reduced. Infrared combustion implements have following advantages: *Using LPG, clean and no pollution *High heat efficiency and low energy consuming *Economical and practical. The cost of using infrared combustion implements can be red cued by more than 50% compared with that of using electrical drying *Installing conveniently and simply *Application, Barbecue oven, Roast product line of grocery, Automatic Drier *Special infrared oven for gas, Barbecue ark, Bake Line, Bottom setting of painting line Infrared ceramic plate for gas burner: *Outstanding Strength *Uniform radiant burning *Excellent thermal shock resistance *Save up to 30~50% energy cost *Burn without flame, high burning efficiency, low noise *Reduce the harmful gas such as CO, NOx, etc more than 90%   BarbecuesGyro CookersBroilersPizza OvensConvection OvensPressure FryersDeep Fat FryersProcessEvaporatorsRangesGas OvensRotisserie OvensGriddlesSpace HeatersGreenhouse CO 2Sear CookersMaterial  Porosity SW  Coefficient of Heat Expansion  Refractoriness under load  Air consumption Thermal Efficiency  Cook-top Temperature  CO Exhaust Cordierite 61% 0.9-1.1g/cm3 3.4( × 10-6,K-1) 1410 ° C  0.13kg/h 65-70% 1000-2000 ° C