In the stage of design of the burner, factors such as fuel characteristics, furnace type, geographical environment, and user specific needs are comprehensively considered. Combustion aerodynamics and related principles are applied to design, and improvements and corrections are made through simulation results, ultimately achieving the following perfect results:
Uniform mixing of burner fuel and air
During fuel combustion, the axial and radial air flow formed at the outlet of the burner is maximally diffusedbetween the boundary layers through high-power strong injection. According to the user's required data, a low-level mixing model is used to achieve very uniform mixing of fuel and air.
Advanced flame stabilization technology for burners
The burner uses a double vortex flame stabilizer designed through simulation and a variable angle backflow bladetogenerate strong hot gas backflow to maintain a narrow flamefront chamber and achieve flame stability.
By usingCFD aerodynamic simulation technology, calculate the flame length and diameter suitable for the corresponding model of furnacetoensure the correct flame shape, and adjust the gas flow rate and injection directionthroughseparate gas and air guns to be most ideally suitable for the combustion chamber structure, so as to achieve the best combustion effect and achieve the lowestNOxemissions.
Selection data of integratedgas burner
Burner Model No.
1 2 3 4 WHAJNGT30-5001/2/C
(1) Company Code (2) Integrated series (3) Heating capacity 104Kcal specification (4) Single stage / Double stage/ Proportional adjustment type
Audited Supplier 
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