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Combustion Science and Technology Volume 190, 2018 - Issue 8
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Articles

Investigation of the fuel effects on burning velocity and flame structure of turbulent premixed flames based on leading points concept

Weijie ZhangState Key Laboratory of Multiphase Flow in Power Engineering, Xi’an Jiaotong University, Xi’an, ChinaView further author information
,
Jinhua WangState Key Laboratory of Multiphase Flow in Power Engineering, Xi’an Jiaotong University, Xi’an, ChinaCorrespondence[email protected] [email protected]
ORCID Iconhttp://orcid.org/0000-0003-1490-9111View further author information
ORCID Icon,
Qianqian YuState Key Laboratory of Multiphase Flow in Power Engineering, Xi’an Jiaotong University, Xi’an, ChinaView further author information
,
Wu JinState Key Laboratory of Multiphase Flow in Power Engineering, Xi’an Jiaotong University, Xi’an, ChinaView further author information
,
Meng ZhangState Key Laboratory of Multiphase Flow in Power Engineering, Xi’an Jiaotong University, Xi’an, ChinaView further author information
&
Zuohua HuangState Key Laboratory of Multiphase Flow in Power Engineering, Xi’an Jiaotong University, Xi’an, ChinaView further author information
Pages 1354-1376 | Received 17 Jun 2017, Accepted 09 Mar 2018, Published online: 28 Mar 2018

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Weiguang An, Qing Li, Kai Liang, Xiangwei Yin & Zhe Wang. (2021) Study on Combustion Characteristics and Evacuation during Intake Airway Fire in Coal Face under Different Ventilation Conditions. Combustion Science and Technology 193:8, pages 1378-1399.
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Yaohui Nie, Jinhua Wang, Shilong Guo, Weijie Zhang, Wu Jin, Meng Zhang & Zuohua Huang. (2021) POD Scale Analysis of Turbulent Premixed Flame Structure at Elevated Pressures. Combustion Science and Technology 193:6, pages 944-966.
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Articles from other publishers (22)

Longjuan Ji, Jinhua Wang, Weijie Zhang, Yuncheng Wang, Zuohua Huang & Xue-Song Bai. (2024) Structure and thermoacoustic instability of turbulent swirling lean premixed methane/hydrogen/air flames in a model combustor. International Journal of Hydrogen Energy 60, pages 890-901.
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F. Pignatelli, D. Sanned, S. Derafshzan, R.Z. Szasz, X.S. Bai, M. Richter, A. Ehn, D. Lörstad, P. Petersson & A.A. Subash. (2024) Impact of pilot flame and hydrogen enrichment on turbulent methane/hydrogen/air swirling premixed flames in a model gas turbine combustor. Experimental Thermal and Fluid Science 152, pages 111124.
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Seyed Morteza Mousavi & Andrei N. Lipatnikov. (2024) Are differential diffusion effects of importance when burning hydrogen under elevated pressures and temperatures?. International Journal of Hydrogen Energy 49, pages 1048-1058.
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Hsu Chew Lee, B. Wu, Peng Dai, Minping Wan & Andrei N. Lipatnikov. (2023) Turbulent burning velocity and thermodiffusive instability of premixed flames. Physical Review E 108:3.
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H.C. Lee, P. Dai, M. Wan & A.N. Lipatnikov. (2023) Displacement speed, flame surface density and burning rate in highly turbulent premixed flames characterized by low Lewis numbers. Journal of Fluid Mechanics 961.
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Meng Zhang, Jinhua Wang & Zuohua Huang. (2023) Analysis of Pressure Effect on Three-Dimensional Flame Surface Density Estimation. Applied Sciences 13:8, pages 4691.
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Andrei N. Lipatnikov, Yi-Rong Chen & S.S. Shy. (2023) An experimental study of the influence of Lewis number on turbulent flame speed at different pressures. Proceedings of the Combustion Institute 39:2, pages 2339-2347.
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HsuChew Lee, Abouelmagd Abdelsamie, Peng Dai, Minping Wan & Andrei N. Lipatnikov. (2022) Influence of equivalence ratio on turbulent burning velocity and extreme fuel consumption rate in lean hydrogen-air turbulent flames. Fuel 327, pages 124969.
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Hsu Chew Lee, Peng Dai, Minping Wan & Andrei N. Lipatnikov. (2022) A numerical support of leading point concept. International Journal of Hydrogen Energy 47:55, pages 23444-23461.
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Hsu Chew Lee, Peng Dai, Minping Wan & Andrei N. Lipatnikov. (2022) Lewis number and preferential diffusion effects in lean hydrogen–air highly turbulent flames. Physics of Fluids 34:3.
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Zhen Lu & Yue Yang. (2022) Modeling of the turbulent burning velocity for planar and Bunsen flames over a wide range of conditions宽工况范围下自由传播平面火焰与本生灯火焰的湍流燃烧速度建模. Acta Mechanica Sinica 38:3.
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HsuChew Lee, Peng Dai, Minping Wan & Andrei N. Lipatnikov. (2022) A DNS study of extreme and leading points in lean hydrogen-air turbulent flames – Part I: Local thermochemical structure and reaction rates. Combustion and Flame 235, pages 111716.
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HsuChew Lee, Peng Dai, Minping Wan & Andrei N. Lipatnikov. (2022) A DNS study of extreme and leading points in lean hydrogen-air turbulent flames - part II: Local velocity field and flame topology. Combustion and Flame 235, pages 111712.
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H.C. Lee, P. Dai, M. Wan & A.N. Lipatnikov. (2021) Influence of molecular transport on burning rate and conditioned species concentrations in highly turbulent premixed flames. Journal of Fluid Mechanics 928.
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Runze Mao, Jinhua Wang, Weijie Zhang, Zhenhua An, Wenjun Lin, Meng Zhang & Zuohua Huang. (2021) Effect of high hydrogen enrichment on the outer-shear-layer flame of confined lean premixed CH4/H2/air swirl flames. International Journal of Hydrogen Energy 46:34, pages 17969-17981.
Crossref
Salman Verma, Florian Monnier & Andrei N. Lipatnikov. (2021) Validation of leading point concept in RANS simulations of highly turbulent lean syngas-air flames with well-pronounced diffusional-thermal effects. International Journal of Hydrogen Energy 46:13, pages 9222-9233.
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F. Hampp, K.H.H. Goh & R.P. Lindstedt. (2020) The reactivity of hydrogen enriched turbulent flames. Process Safety and Environmental Protection 143, pages 66-75.
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Weijie Zhang, Jinhua Wang, Wenjun Lin, Runze Mao, Hao Xia, Meng Zhang & Zuohua Huang. (2020) Effect of differential diffusion on turbulent lean premixed hydrogen enriched flames through structure analysis. International Journal of Hydrogen Energy 45:18, pages 10920-10931.
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Jinhua Wang, Yaohui Nie, Weijie Zhang, Shilong Guo, Meng Zhang & Zuohua Huang. (2019) Network topology of turbulent premixed Bunsen flame at elevated pressure and turbulence intensity. Aerospace Science and Technology 94, pages 105361.
Crossref
Rixin Yu & Andrei N. Lipatnikov. (2019) Surface-averaged quantities in turbulent reacting flows and relevant evolution equations. Physical Review E 100:1.
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A. N. Lipatnikov, V. A. Sabelnikov, S. Nishiki & T. Hasegawa. (2019) A direct numerical simulation study of the influence of flame-generated vorticity on reaction-zone-surface area in weakly turbulent premixed combustion. Physics of Fluids 31:5.
Crossref
Andrei N. Lipatnikov, Nilanjan Chakraborty & Vladimir A. Sabelnikov. (2018) Transport equations for reaction rate in laminar and turbulent premixed flames characterized by non-unity Lewis number. International Journal of Hydrogen Energy 43:45, pages 21060-21069.
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