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      KCI등재 SCOPUS

      층류 CH₄/Air 예혼합화염의 하류영역에서 NO 농도 예측을 위한 열손실 모델의 검토

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      https://www.riss.kr/link?id=A76503437

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      다국어 초록 (Multilingual Abstract)

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      One-dimensional modeling of CH₄/air premixed flame was conducted to validate the heat loss model and investigate NOx formation characteristics in the postflame region. The predicted temperature and NO concentration were compared to experimental data and previous heat loss model results using a constant gradient of temperature (100 K/㎝). The following conclusions were drawn. In the heat loss model using steady-state heat transfer equation, the numerical results using the effective heat loss coefficient (heff) of 1.0 W/㎡K were in very good agreement with the experiments in terms of temperature and NO concentration. On the other hand, the calculated values using the constant gradient of temperature (100 K/㎝) were lower than that in the experiments. Although the effects of heat loss suppress NO production near the flame region, a significant difference in NO concentration was not found compared to that under adiabatic conditions. In the postflame region, however, there were considerable differences in NO emission index as well as the contribution of NO formation mechanisms. In particular, in the range of ø≥0.8 , the prompt NO mechanism plays an important role in the NO reduction under the adiabatic condition. On the other hand, the mechanism contributes to the NO production under the heat loss conditions.
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      One-dimensional modeling of CH₄/air premixed flame was conducted to validate the heat loss model and investigate NOx formation characteristics in the postflame region. The predicted temperature and NO concentration were compared to experimental data...

      One-dimensional modeling of CH₄/air premixed flame was conducted to validate the heat loss model and investigate NOx formation characteristics in the postflame region. The predicted temperature and NO concentration were compared to experimental data and previous heat loss model results using a constant gradient of temperature (100 K/㎝). The following conclusions were drawn. In the heat loss model using steady-state heat transfer equation, the numerical results using the effective heat loss coefficient (heff) of 1.0 W/㎡K were in very good agreement with the experiments in terms of temperature and NO concentration. On the other hand, the calculated values using the constant gradient of temperature (100 K/㎝) were lower than that in the experiments. Although the effects of heat loss suppress NO production near the flame region, a significant difference in NO concentration was not found compared to that under adiabatic conditions. In the postflame region, however, there were considerable differences in NO emission index as well as the contribution of NO formation mechanisms. In particular, in the range of ø≥0.8 , the prompt NO mechanism plays an important role in the NO reduction under the adiabatic condition. On the other hand, the mechanism contributes to the NO production under the heat loss conditions.

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      목차 (Table of Contents)

      • Abstract
      • 1. 서론
      • 2. 수치해석 방법
      • 3. 결과 및 검토
      • 4. 결론
      • Abstract
      • 1. 서론
      • 2. 수치해석 방법
      • 3. 결과 및 검토
      • 4. 결론
      • 후기
      • 참고문헌
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      참고문헌 (Reference)

      1 김종현, "싸이클론 유동을 이용한 예혼합 다단연소기의 NOx 및 CO 배출특성" 한국연소학회 13 (13): 7-13, 2008

      2 Tien, C. L., "Thermal Radiation Properties of Gases" 5 : 253-232, 1968

      3 Coppens, F. H. V., "The Effects of Composition on Burning Velocity and Nitric Oxide Formation in Laminar Premixed Flames" 149 : 409-417, 2007

      4 Takeno, T., "Species Conservation and Emission Indices for Flames Described by Similarity Solutions" 92 : 465-448, 1993

      5 Konnov, A. A., "Probe Sampling Measurements and Modeling of Nitric Oxide Formation in Methane-Air Flames" 169 : 127-153, 2001

      6 Daykov, I. V., "Probe Sampling Measurements and Modeling of Nitric Oxide Formation in Ethane + Air Flames" 86 : 98-105, 2007

      7 Ju, Y., "On the Extinction Limit and Flammability Limit of Non- Adiabatic Stretched Methane-air Premixed Flames" 342 : 315-334, 1997

      8 Konnov, A. A., "Nitric Oxide Formation in Premixed Flames of H2+CO+CO2 and Air" 29 : 2171-2177, 2002

      9 Correa, S. M., "NOx in a Parametrically Varied Methane Flames" 23 : 238-295, 1990

      10 Nishioka, M., "NO Emission Characteristics of Methane-Air Double Flame" 98 : 127-138, 1994

      1 김종현, "싸이클론 유동을 이용한 예혼합 다단연소기의 NOx 및 CO 배출특성" 한국연소학회 13 (13): 7-13, 2008

      2 Tien, C. L., "Thermal Radiation Properties of Gases" 5 : 253-232, 1968

      3 Coppens, F. H. V., "The Effects of Composition on Burning Velocity and Nitric Oxide Formation in Laminar Premixed Flames" 149 : 409-417, 2007

      4 Takeno, T., "Species Conservation and Emission Indices for Flames Described by Similarity Solutions" 92 : 465-448, 1993

      5 Konnov, A. A., "Probe Sampling Measurements and Modeling of Nitric Oxide Formation in Methane-Air Flames" 169 : 127-153, 2001

      6 Daykov, I. V., "Probe Sampling Measurements and Modeling of Nitric Oxide Formation in Ethane + Air Flames" 86 : 98-105, 2007

      7 Ju, Y., "On the Extinction Limit and Flammability Limit of Non- Adiabatic Stretched Methane-air Premixed Flames" 342 : 315-334, 1997

      8 Konnov, A. A., "Nitric Oxide Formation in Premixed Flames of H2+CO+CO2 and Air" 29 : 2171-2177, 2002

      9 Correa, S. M., "NOx in a Parametrically Varied Methane Flames" 23 : 238-295, 1990

      10 Nishioka, M., "NO Emission Characteristics of Methane-Air Double Flame" 98 : 127-138, 1994

      11 Drake, M. C., "Measurements and Modeling of Flamefront NO Formation and Super- Equilibrium Radical Concentrations in Laminar High- Pressure Premixed Flames" 23 : 387-395, 1990

      12 Maaren, A. Van, "Laser Doppler Thermometry in Flat Flames" 99 : 105-118, 1994

      13 Ahn, J., "Heat Transfer Characteristics of 0.5 t/h Class Non-Furnace Boiler" 130-135, 2007

      14 "GRI Mech. Ver. 3.0, web Address"

      15 Kee, R. J., "Fortran Program for Modeling Steady Laminar One-Dimensional Premixed Flame" 1994

      16 Strenger, M. R., "Formation of NOx and Burnoff of CO During Thermal Quenching of the Products from Combustion in a Thermally Stabilized Burner" 22 : 1183-1191, 1988

      17 Hwang, C. H., "Effects of Heat Loss on NOx Emission in the Postflame Region of Premixed CH4-Air Combustion" 22 : 996-1003, 2008

      18 Kee, R. J., "Chemkin-Ⅱ: A Fortran Chemical Kinetics Package for the Analysis of Gas Phase Chemical Kinetics" 1989

      19 이창언, "CH4/Air 예혼합화염의 하류영역에서 체류시간 및 열손실에 의한 NOx의 생성특성" 대한기계학회 31 (31): 99-108, 2007

      20 Kee, R. J., "A Fortran Computer Code Package for the Evaluation of Gas-Phase Multi- Component Transport" 1994

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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.23 0.23 0.25
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
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