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Combustion Science and Technology Volume 184, 2012 - Issue 7-8: Seventh Mediterranean Combustion Symposium
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Original Articles

NOx Formation in H2-CH4 Blended Flame Under MILD Conditions

A. Mardani Department of Aerospace Engineering, Sharif University of Technology, Tehran, IranCorrespondence[email protected]
&
S. Tabejamaat Department of Aerospace Engineering, Amirkabir University of Technology, Tehran, Iran
Pages 995-1010 | Received 07 May 2011, Accepted 01 Feb 2012, Published online: 03 Aug 2012

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Jiaying Cheng, Chao Zong, Chenzhen Ji, Jinrong Bao & Tong Zhu. (2023) Numerical Simulation of NO Formation in Non-Premixed Methane Combustion Using Internal Flue Gas Recirculation. Combustion Science and Technology 0:0, pages 1-25.
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Amir Mardani, Amirhossein Azimi & Hamed Karimi Motaalegh Mahalegi. (2022) An Experimental Study on Kerosene Spray Combustion Under Conventional and Hot-Diluted Conditions. Combustion Science and Technology 194:13, pages 2712-2751.
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Articles from other publishers (41)

Shunta Xu, Ziyi Tian, Songjie Tian, Liyang Xi, Yaojie Tu & Hao Liu. (2024) Sustainability of hydrogen-enriched methane MILD combustion over a wide range of hydrogen-blending ratios in a strongly heat-extracted well-stirred reactor. Fuel 357, pages 130035.
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Shunta Xu, Yuhang Tong, Shaocai Jin, Hao Ren, Yaojie Tu, Shihong Zhang & Hao Liu. (2023) NO formation and reduction during methane/hydrogen MILD combustion over a wide range of hydrogen-blending ratios in a well-stirred reactor. Fuel 346, pages 128324.
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Hejitian Pan, Sajie Geng, Huan Yang, Guohong Zhang, Hao Bian & Yinhe Liu. (2023) Influence of H2 blending on NOx production in natural gas combustion: Mechanism comparison and reaction routes. International Journal of Hydrogen Energy 48:2, pages 784-797.
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Tingyao Zhang, Yuegui Zhou & Bofei Zhou. (2022) The effects of the initial NO volume fractions on the NOx generation and reduction routes under natural gas MILD combustion conditions. Fuel 328, pages 125175.
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Shunta Xu, Shaocai Jin, Yuhang Tong, Bing Shi, Yaojie Tu & Hao Liu. (2022) Quantitative evaluation of NO formation and destruction routes during methane MILD combustion using an improved calculation method. Fuel 324, pages 124593.
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Donghee Kim, Jinje Park, Kang Y. Huh & Youngjae Lee. (2021) Oxygen‐enriched flameless combustion of CH 4 / H 2 / CO mixtures . International Journal of Energy Research 46:4, pages 4320-4338.
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Jinje Park, Donghee Kim & Youngjae Lee. (2021) Experimental study on flameless combustion and NO emission with hydrogen‐containing fuels . International Journal of Energy Research 46:3, pages 2512-2528.
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Amir Mardani, Hamed Karimi Motaalegh Mahalegi, Amirhossein Azimi & Fatemeh Chitgarha. 2022. Fundamentals of Low Emission Flameless Combustion and Its Applications. Fundamentals of Low Emission Flameless Combustion and Its Applications 595 645 .
Pino Sabia, Giancarlo Sorrentino, Giovanni B. Ariemma, Maria V. Manna, Raffaele Ragucci & Mara de Joannon. (2021) MILD Combustion and Biofuels: A Minireview. Energy & Fuels 35:24, pages 19901-19919.
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Yaojie Tu, Shunta Xu, Mengqian Xie, Zean Wang & Hao Liu. (2021) Numerical simulation of propane MILD combustion in a lab-scale cylindrical furnace. Fuel 290, pages 119858.
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Namsu Kim, Yongmo Kim, Mohammad Nazri Mohd Jaafar, Muhammad Roslan Rahim & Mazlan Said. (2021) Effects of hydrogen addition on structure and NO formation of highly CO-Rich syngas counterflow nonpremixed flames under MILD combustion regime. International Journal of Hydrogen Energy 46:17, pages 10518-10534.
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E. Ebrahimi Fordoei, Kiumars Mazaheri & Amirreza Mohammadpour. (2021) Numerical study on the heat transfer characteristics, flame structure, and pollutants emission in the MILD methane-air, oxygen-enriched and oxy-methane combustion. Energy 218, pages 119524.
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E. Ebrahimi Fordoei & Kiumars Mazaheri. (2021) Effects of preheating temperature and dilution level of oxidizer, fuel composition and strain rate on NO emission characteristics in the syngas moderate or intense low oxygen dilution (MILD) combustion. Fuel 285, pages 119118.
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Salvatore Iavarone & Alessandro Parente. (2020) NOx Formation in MILD Combustion: Potential and Limitations of Existing Approaches in CFD. Frontiers in Mechanical Engineering 6.
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Ghufran Ali, Tingyao Zhang, Wendong Wu & Yuegui Zhou. (2020) Effect of hydrogen addition on NOx formation mechanism and pathways in MILD combustion of H2-rich low calorific value fuels. International Journal of Hydrogen Energy 45:15, pages 9200-9210.
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Hamed Karimi Motaalegh Mahalegi & Amir Mardani. (2019) Ethanol Spray Combustion under a MILD Condition: A Chemical Kinetic Study. Energy & Fuels 33:11, pages 11861-11886.
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Amir Mardani & Andisheh Khanehzar. (2019) Numerical assessment of MILD combustion enhancement through plasma actuator. Energy 183, pages 172-184.
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Mohammad Mansourian & Reza Kamali. (2019) Modifying the constant coefficients of Eddy-dissipation concept model in moderate or intense low-oxygen dilution combustion using inverse problem methodology. Acta Astronautica 162, pages 546-554.
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Stéphanie de Persis, Mahmoud Idir, Julien Molet & Laure Pillier. (2019) Effect of hydrogen addition on NOx formation in high-pressure counter-flow premixed CH4/air flames. International Journal of Hydrogen Energy 44:41, pages 23484-23502.
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Ho-Yeon Lee, Chun-Loon Cha & Sang-Soon Hwang. (2019) Numerical investigation on NOX formation in oxygen-CH4 MILD combustion with air leakage. Journal of Mechanical Science and Technology 33:8, pages 3733-3741.
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Amir Mardani & Hamed Karimi Motaalegh Mahalegi. (2019) Hydrogen enrichment of methane and syngas for MILD combustion. International Journal of Hydrogen Energy 44:18, pages 9423-9437.
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Giancarlo Sorrentino, Pino Sabia, Mara de Joannon, Pio Bozza & Raffaele Ragucci. (2018) Influence of preheating and thermal power on cyclonic burner characteristics under mild combustion. Fuel 233, pages 207-214.
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F. Chitgarha & A. Mardani. (2018) Assessment of steady and unsteady flamelet models for MILD combustion modeling. International Journal of Hydrogen Energy 43:32, pages 15551-15563.
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Ali Salavati-Zadeh, Vahid Esfahanian, Seyyed Bahram Nourani Najafi, Hossein Saeed & Mobin Mohammadi. (2018) Kinetic simulation of flameless burners with methane/hydrogen blended fuel: Effects of molecular diffusion and Schmidt number. International Journal of Hydrogen Energy 43:11, pages 5972-5983.
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Hyunggeun Ji, Namsu Kim & Yongmo Kim. (2017) FGM-based non-adiabatic multi-environment PDF modeling for MILD combustion processes with the strong flow reversal. Journal of Mechanical Science and Technology 31:12, pages 6059-6068.
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Sangtae Jeon & Yongmo Kim. (2017) Multi-environment Probability Density Function Modeling for Turbulent CH 4 Flames under Moderate or Intense Low-Oxygen Dilution Combustion Conditions with Recirculated Flue Gases . Energy & Fuels 31:8, pages 8685-8697.
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Bo LiuBin-Bin BaoHong XuYuan-Hua Wang. (2017) Performance and Routes of Nitrogen Oxide Formation of MILD Forward-Flow Furnace with Reflector. Journal of Energy Engineering 143:4.
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Yaming Liu, Sheng Chen, Shi Liu, Yongxin Feng, Kai Xu & Chuguang Zheng. (2016) Methane combustion in various regimes: First and second thermodynamic-law comparison between air-firing and oxyfuel condition. Energy 115, pages 26-37.
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Yizhuo He, Chun Zou, Yu Song, Yang Liu & Chuguang Zheng. (2016) Numerical study of characteristics on NO formation in methane MILD combustion with simultaneously hot and diluted oxidant and fuel (HDO/HDF). Energy 112, pages 1024-1035.
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A. Mardani & A. Fazlollahi Ghomshi. (2016) Numerical study of oxy-fuel MILD (moderate or intense low-oxygen dilution combustion) combustion for CH4–H2 fuel. Energy 99, pages 136-151.
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Yaojie Tu, Kai Su, Hao Liu, Sheng Chen, Zhaohui Liu & Chuguang Zheng. (2016) Physical and Chemical Effects of CO 2 Addition on CH 4 /H 2 Flames on a Jet in Hot Coflow (JHC) Burner . Energy & Fuels.
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Ali Shiehnejadhesar, Robert Scharler, Ramin Mehrabian & Ingwald Obernberger. (2015) Development and validation of CFD models for gas phase reactions in biomass grate furnaces considering gas streak formation above the packed bed. Fuel Processing Technology 139, pages 142-158.
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Yaojie Tu, Hao Liu, Kai Su, Sheng Chen, Zhaohui Liu, Chuguang Zheng & Weijie Li. (2015) Numerical study of H 2 O addition effects on pulverized coal oxy-MILD combustion. Fuel Processing Technology 138, pages 252-262.
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F. Wang, P. Li, J. Zhang, Z. Mei, J. Mi & J. Wang. (2015) Routes of formation and destruction of nitrogen oxides in CH4/H2 jet flames in a hot coflow. International Journal of Hydrogen Energy 40:18, pages 6228-6242.
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Shiying Cao, Chun Zou, Qingsong Han, Yang Liu, Di Wu & Chuguang Zheng. (2015) Numerical and Experimental Studies of NO Formation Mechanisms under Methane Moderate or Intense Low-Oxygen Dilution (MILD) Combustion without Heated Air. Energy & Fuels 29:3, pages 1987-1996.
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Seyed Ehsan Hosseini & Mazlan Abdul Wahid. (2014) Development of biogas combustion in combined heat and power generation. Renewable and Sustainable Energy Reviews 40, pages 868-875.
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P. Li, F. Wang, J. Mi, B.B. Dally, Z. Mei, J. Zhang & A. Parente. (2014) Mechanisms of NO formation in MILD combustion of CH 4 /H 2 fuel blends. International Journal of Hydrogen Energy 39:33, pages 19187-19203.
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P. Li, F. Wang, J. Mi, B. B. Dally & Z. Mei. (2014) MILD Combustion under Different Premixing Patterns and Characteristics of the Reaction Regime. Energy & Fuels 28:3, pages 2211-2226.
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Xuan Gao, Fei Duan, Seng Chuan Lim & Mee Sin Yip. (2013) NOx formation in hydrogen–methane turbulent diffusion flame under the moderate or intense low-oxygen dilution conditions. Energy 59, pages 559-569.
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Yu Jeong Kim, Chang Bo Oh & Osamu Fujita. (2015) Prediction Performance of Chemical Mechanisms for Numerical Simulation of Methane Jet MILD Combustion. Advances in Mechanical Engineering 5, pages 138729.
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Tingyao Zhang, Yuegui Zhou & Bofei Zhou. (2021) The Effects of the Initial NO Volume Fractions on NOx Generation and Reduction Routes Under Natural Gas MILD Combustion Condition. SSRN Electronic Journal.
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