Abstract
Aiming at the problem of the narrow combustion stability boundary, a conical swirler was designed and constructed based on the concept of fuel distribution. The blowout performance was studied at specified low operating conditions by a combination of experimental testing and numerical simulations. Research results indicate that the technique of the fuel distribution can enhance the combustion stability and widen the boundary of flameout within the range of testing conditions. The increase of the fuel distribution ratio improves the combustion stability but leads to an increase in NOx emission simultaneously. The simulation results show the increase of the fuel distribution ratio causes contact ratio increase in the area of lower reference velocity and gas temperature increase. The increased contact ratio and temperature contribute to the blowout performance enhancement, which is identical to the analysis result of the Damkohler number. The reported work in this paper has potential application value for the development of an industrial burner and combustor with high stability and low NOx emission, especially when the combustion system is required to be stable and efficient at low working conditions.
Highlights
In recent years, with the continual improvement of environmental requirements, the discharge standard of pollutants has become increasingly strict
To improve the combustion stability a conical swirler based on the distribution of two parts of fuel at low operating condition is proposed in this paper
The blowout performance of the conical swirler combustor is studied by a combination of experimental testing and numerical simulations
Summary
With the continual improvement of environmental requirements, the discharge standard of pollutants has become increasingly strict. The improvement of the premixed level will bring the stability problem in the lean premixed combustion system, [6–9], especially under low operating condition or Energies 2021, 14, 1681.
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