Numerical study on the heat transfer characteristics, flame structure, and pollutants emission in the MILD methane-air, oxygen-enriched and oxy-methane combustion
出版年份 2020 全文链接
标题
Numerical study on the heat transfer characteristics, flame structure, and pollutants emission in the MILD methane-air, oxygen-enriched and oxy-methane combustion
作者
关键词
MILD combustion, Oxy-methane combustion, Oxygen-enriched combustion, Ignition delay, Pollutants emission, Temperature uniformity
出版物
ENERGY
Volume 218, Issue -, Pages 119524
出版商
Elsevier BV
发表日期
2020-12-08
DOI
10.1016/j.energy.2020.119524
参考文献
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- CFD and kinetic modelling study of methane MILD combustion in O2/N2, O2/CO2 and O2/H2O atmospheres
- (2019) Yaojie Tu et al. APPLIED ENERGY
- Numerical study on a novel burner designed to improve MILD combustion behaviors at the oxygen enriched condition
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- (2019) Toomaj Jozaalizadeh et al. ENERGY
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- (2019) Saurabh Sharma et al. ENERGY
- Optimization of Chemical Kinetics for Methane and Biomass Pyrolysis Products in Moderate or Intense Low-Oxygen Dilution Combustion
- (2018) Magnus Fürst et al. ENERGY & FUELS
- Combustion Characteristics of a Methane Jet Flame in Hot Oxidant Coflow Diluted by H2O versus the Case by N2
- (2018) C. Dai et al. ENERGY & FUELS
- Analysis of the Eddy Dissipation Concept formulation for MILD combustion modelling
- (2018) Michał T. Lewandowski et al. FUEL
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- (2018) F. Chitgarha et al. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
- Generalisation of the eddy-dissipation concept for jet flames with low turbulence and low Damköhler number
- (2018) M.J. Evans et al. PROCEEDINGS OF THE COMBUSTION INSTITUTE
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- (2018) E. Ebrahimi Fordoei et al. HEAT AND MASS TRANSFER
- Methane combustion in MILD oxyfuel regime: Influences of dilution atmosphere in co-flow configuration
- (2017) Sheng Chen et al. ENERGY
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- (2017) Kin-Pang Cheong et al. ENERGY
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- (2016) Alessandro Parente et al. FUEL
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- (2015) Bo Liu et al. APPLIED THERMAL ENGINEERING
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- (2015) M. J. Evans et al. COMBUSTION SCIENCE AND TECHNOLOGY
- OpenSMOKE++ : An object-oriented framework for the numerical modeling of reactive systems with detailed kinetic mechanisms
- (2015) A. Cuoci et al. COMPUTER PHYSICS COMMUNICATIONS
- Moderate or Intense Low-Oxygen Dilution Combustion of Methane Diluted by CO2 and N2
- (2015) Jianpeng Zhang et al. ENERGY & FUELS
- Effect of fuel injection velocity on MILD combustion of syngas in axially-staged combustor
- (2014) Ming-ming Huang et al. APPLIED THERMAL ENGINEERING
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- (2014) Nicola Donohoe et al. COMBUSTION AND FLAME
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- (2014) Y. Minamoto et al. COMBUSTION SCIENCE AND TECHNOLOGY
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- (2013) Mario Sánchez et al. APPLIED ENERGY
- Ignition and kinetic modeling of methane and ethane fuel blends with oxygen: A design of experiments approach
- (2013) Christopher J. Aul et al. COMBUSTION AND FLAME
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- (2013) Pengfei Li et al. COMBUSTION AND FLAME
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- (2013) Yuki Minamoto et al. COMBUSTION AND FLAME
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- Imaging of diluted turbulent ethylene flames stabilized on a Jet in Hot Coflow (JHC) burner
- (2007) Paul R. Medwell et al. COMBUSTION AND FLAME
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