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Combustion Science and Technology Volume 186, 2014 - Issue 4-5: Eighth Mediterranean Combustion Symposium
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Original Articles

Soot Reduction Under DC Electric Fields in Counterflow Non-Premixed Laminar Ethylene Flames

Dae Geun ParkClean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal, Saudi Arabia
,
Byung Chul ChoiShip & Plant Research Team, Korean Register of Shipping, Seoul, Republic of Korea
,
Min Suk ChaClean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaCorrespondence[email protected]
&
Suk Ho ChungClean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal, Saudi Arabia
Pages 644-656 | Received 15 May 2013, Accepted 19 Nov 2013, Published online: 23 Apr 2014

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Junjie Zhou, Zhaochen Sun, Songzhen Tang & Yinsheng Yu. (2023) Molecular dynamics simulation on CH4 combustion in CO2/O2/N2 atmosphere subjected to electric field. Molecular Simulation 49:8, pages 792-798.
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Yong Ren Tan, Yichen Zong, Maurin Salamanca, Jacob W. Martin, Jochen A. H. Dreyer, Jethro Akroyd, Wenming Yang & Markus Kraft. (2023) Investigation on the Effect of Charge Injection from Non-Thermal Plasma on Soot Formation in Laminar Coflow Diffusion Flame. Combustion Science and Technology 0:0, pages 1-22.
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Yiming Li, Jinhua Wang, Hao Xia, Rongyuan Ju, Jinlu Yu, Haibao Mu & Zuohua Huang. (2023) Effect of DC Electric Field on Turbulent Flame Structure and Turbulent Burning Velocity. Combustion Science and Technology 195:4, pages 692-712.
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Narjisse Kabbaj & Hong G. Im. (2023) Response of one-dimensional ionised layer to oscillatory electric fields. Combustion Theory and Modelling 27:2, pages 267-289.
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Ahmad Sayed-Kassem, Pascale Gillon, Mahmoud Idir & Virginie Gilard. (2022) On the Effect of a DC Electric Field on Soot Particles’ Emission of a Laminar Diffusion Flame. Combustion Science and Technology 194:1, pages 213-224.
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Pascale Gillon, Virginie Gilard, Mahmoud Idir & Brahim Sarh. (2019) Electric field influence on the stability and the soot particles emission of a laminar diffusion flame. Combustion Science and Technology 191:2, pages 325-338.
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Yiming Li, Jinhua Wang, Hao Xia, Chao Li, Meng Zhang, Xiaomin Wu, Zuohua Huang & Haibao Mu. (2018) Effect of DC electric field on laminar premixed spherical propagation flame at elevated pressures up to 0.5 MPa. Combustion Science and Technology 190:11, pages 1900-1922.
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Jin Park, Jinwoo Son, Thomas D. Butterworth & Min Suk Cha. (2023) Electric fields in a counterflow nonpremixed flame: measurement and simulation. Scientific Reports 13:1.
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Ahmad Sayed-Kassem, Abdallah Elorf, Pascale Gillon, Mahmoud Idir, Brahim Sarh & Virginie Gilard. (2021) Numerical modelling to study the effect of DC electric field on a laminar ethylene diffusion flame. International Communications in Heat and Mass Transfer 122, pages 105167.
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Anthony M. Bennett, Peng Liu, Zepeng Li, Najeh M. Kharbatia, Wesley Boyette, Assaad R. Masri & William L. Roberts. (2020) Soot formation in laminar flames of ethylene/ammonia. Combustion and Flame 220, pages 210-218.
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Jacob W. Martin, Maria Botero, Radomir I. Slavchov, Kimberly BowalJethro AkroydSebastian MosbachMarkus Kraft. (2018) Flexoelectricity and the Formation of Carbon Nanoparticles in Flames. The Journal of Physical Chemistry C 122:38, pages 22210-22215.
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Manh-Vu Tran & Min Suk Cha. (2017) Time evolution of propagating nonpremixed flames in a counterflow, annular slot burner under AC electric fields. Proceedings of the Combustion Institute 36:1, pages 1421-1430.
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Yanlai Luo, Yunhua Gan & Xi Jiang. (2017) Investigation of the effect of DC electric field on a small ethanol diffusion flame. Fuel 188, pages 621-627.
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Dae Geun Park, Suk Ho Chung & Min Suk Cha. (2016) Bidirectional ionic wind in nonpremixed counterflow flames with DC electric fields. Combustion and Flame 168, pages 138-146.
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Yuan Xiong, Dae Geun Park, Bok Jik Lee, Suk Ho Chung & Min Suk Cha. (2016) DC field response of one-dimensional flames using an ionized layer model. Combustion and Flame 163, pages 317-325.
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