Large Industrial Drying Preferred Infrared Burner (K850)
|10-19 20-99 100-499 500+|
|FOB Unit Price:||US $123 US $120 US $98.5 US $84.5|
|Purchase Qty. (Sets)||FOB Unit Price|
|Production Capacity:||2000 PCS. /Month|
|Payment Terms:||T/T, Paypal, Western Union, Cash|
- Model NO.: K850
- Structure Material: Metal Material
- Mixing Heat Exchanger Type: Jetheat Exchanger
- Certification: CE
- Specification: CE
- HS Code: 8416201190
- Principle: Mixing Heat Exchanger
- Application: Heater
- Heat Transfer Surface: Plate Heat Exchanger
- Trademark: SUNSRAYS
- Origin: Shenzhen, China
The K series burners can be applied with an air/gas pre-mixer or a normal nozzle. It means that the burners can be used either with naturally pre-mixed air and gas, or with manually pre-mixed air and gas.
Dimension: 780mm x 145mm x 185mm (bottom-in-type),
Or 850mm x 145mm x 130mm(side-in-type)
Weight: 5.5kg / PC. (bottom-in-type), or 5kg/ PC. (side-in)
Heat output: 6500~13500 kcal/hr
LPG consumption: 0.65~1.2kg/hr
Inlet gas pressure: 1.2kpa for manually pre-mixed. 40~100kpa for naturally pre-mixed air and gas
Inlet air pressure: 2.8~3.5kpa, if needed.
Safety: The 2.8 kPa low pressure natural ejector way premixed, more secure and reliable.
Efficient: Imported ceramic plate heat storage capacity, wide adjustment range, good radiation effects; its surface temperature may be in the range of 475 to 950 degrees Celsius adjusted to better carry out the coating operations.
Energy Saving: 1.63KW monolithic ceramic plate heating power, 0.12kg / hr monolithic ceramic plate ultra liquefied gas consumption.
Environmental protection: the entire system COX, NOx emissions below international standards related industries (in the standard system configuration and use of environment).
Wide range of applications: the option of using natural gas, liquefied petroleum gas, artificial gas and other gas.
Accurate control: drive, actuators and butterfly valves, furnace temperature throughout the system, PLC or OPTO22 central control module for precise control of the combustion.<o:p>