Wei Li
17 Papers
Wei Li is an academic researcher. The author has contributed to research in topics: Chemistry & Combustion. The author has an hindex of 2, co-authored 10 publications.
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Papers
Combustion chemistry of aromatic hydrocarbons
TL;DR: In this paper , a comprehensive overview of research on the combustion chemistry of aromatic hydrocarbons is provided, highlighting pertinent aspects of this rapidly enriching information, and outlook the challenges towards fundamentally comprehensive aromatic combustion chemistry and practically efficient aromatic combustion model.
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Co-firing hydrogen and dimethyl ether in a gas turbine model combustor: Influence of hydrogen content and comparison with methane
Zhongya Xi,Tianyou Lian,Xiaoxiang Shi,Zu-liang Liu,Sibo Han,Xiaoyuan Yang,Jianguo Zhang,Wei Li,B.W Mei,Yuyang Li +9 more
TL;DR: In this paper , the authors measured the swirl combustion characteristics of DME/H2 mixtures under varying H2 content up to 0.7 and found that the flow velocity increases with the increasing flame temperature, which is associated with the increased flame temperature.
16
Enhanced ammonia combustion by partial pre-cracking strategy in a gas turbine model combustor: Flame macrostructures, lean blowout characteristics and exhaust emissions
Xiaoxiang Shi,Tianyou Lian,Yi Zhang,Zu-liang Liu,Wei Li,Zhong Xi,Yuyang Li +6 more
TL;DR: This study investigates the effects of partial pre-cracking of ammonia on flame macrostructures, lean blowout characteristics, and exhaust emissions in a gas turbine model combustor, revealing enhanced combustion with increased pre-cracking ratio but increased NO and NO2 emissions.
12
Exploration of NH3 and NH3/DME laminar flame propagation in O2/CO2 atmosphere: Insights into NH3/CO2 interactions
Xiaoxiang Shi,Wei Li,Jianguo Zhang,Qi Fang,Yi Zhang,Zhong Xi,Yuyang Li +6 more
TL;DR: This study investigates laminar flame propagation of NH3 and NH3/DME in O2/CO2 atmosphere, revealing that DME cofiring enhances NH3/CO2 interactions, with chemical effects promoting flame propagation and thermal effects reducing it, particularly under high pressure and CO2 dilution conditions.
10
Role of CH2O moiety on laminar burning velocities of oxymethylene ethers (OMEn): A case study of dimethyl ether, OME1 and OME2
TL;DR: In this article , laminar flame propagation of dimethyl ether (DME), dimethoxymethane (OME1) and methoxy(methoxideymethoxy)methane(OME2) was investigated in a constant-volume cylindrical combustion vessel.
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