• Title/Summary/Keyword: submerged flame

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Comparison of Combustion Characteristics With and Without Water Tube Simulating Heat Exchanger in Two Sections Porous Media Burner (2단 다공성 매체버너에서 열교환기를 모사한 수관 유무에 따른 연소 특성 비교)

  • Lee, Hui-Do;Kim, Jae-Hyeon;Lee, Kee-Man
    • Journal of the Korean Institute of Gas
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    • v.23 no.5
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    • pp.24-34
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    • 2019
  • In this study, the experimental studies were conducted to analyzing characteristics of combustion and flame stabilizing according to with and without water tube in boiler. The burner has consisted of SiC foam where has the location of submerged flame between a ceramic board acting as flash-back arrestor. Porous burner is also insulated to minimize heat loss in the radial direction. In the condition of fixed equivalence ratio, the flame mode was divided into three stability zones by the flow rate. The main factor for blow-off and flash-back depends on mixture flow rate. Consequently, the case of burner with water-tube has higher NOx emissions than without case. This result explains that the presence of water-tube makes the heat loss resistant to ambient temperature with increasing of NOx. This tendency was proved by predicting the relationship between O2 emission and NO production rate, and by analysing temperature profiles.

Experimental Study on the Radiation Efficiency and Combustion Characteristics with Respective to the Mat Thickness and the Fuel Kinds in Metal-Fiber Burner (메탈화이버 버너에서 매트 두께와 연료 종류에 따른 복사 효율 및 연소 특성에 관한 실험적 연구)

  • KIM, JAE HYEON;LEE, KEE MAN
    • Journal of Hydrogen and New Energy
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    • v.29 no.5
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    • pp.512-522
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    • 2018
  • This study was conducted to investigate on the combustion characteristic with the effects of mat thickness and fuel kinds in a metal-fiber burner. The mode transition point is confirmed by the K value, which was defined as the rate of flow velocity and laminar burning velocity. The ($T^4_{sur}-T^4_{\infty}$) is highest at methane flame with 3 T thickness. Through the measurement of the unburned mixture temperature, the possibility of submerged flame in surface combustion burner was confirmed. The rapid emission of CO occurs nearby limit blow out (LBO) because of the increase of flow velocity. In case of NOx, the trend is similar with surface temperature. However, it also considered that the NOx emission is affected by residence time with flame position.