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Combustion Science and Technology Volume 185, 2013 - Issue 12
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Original Articles

The Effect of Conjugate Heat Transfer on Soot Formation Modeling at Elevated Pressures

Nick A. Eaves Department of Mechanical and Industrial Engineering, University of Toronto, Toronto, Ontario, Canada
,
Murray J. Thomson Department of Mechanical and Industrial Engineering, University of Toronto, Toronto, Ontario, CanadaCorrespondence[email protected]
&
Seth B. Dworkin Department of Mechanical and Industrial Engineering, Ryerson University, Toronto, Ontario, Canada
Pages 1799-1819 | Received 16 Jun 2013, Accepted 28 Aug 2013, Published online: 04 Nov 2013

Citations (42)

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Arash Khabazipur & Nick A. Eaves. (2022) Mechanistic comparison of N2 and H2 dilution effects on soot formation processes in laminar ethylene diffusion flames. Cogent Engineering 9:1.
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Yang Wang, Xiaofang Liu, Mingyan Gu & Xueliang An. (2019) Numerical Simulation of the Effects of Hydrogen Addition to Fuel on the Structure and Soot Formation of a Laminar Axisymmetric Coflow C2H4/(O2-CO2) Diffusion Flame. Combustion Science and Technology 191:10, pages 1743-1768.
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Amin Mansouri, Nick A. Eaves, Murray J. Thomson & Seth B. Dworkin. (2019) Influence of pressure on near nozzle flow field and soot formation in laminar co-flow diffusion flames. Combustion Theory and Modelling 23:3, pages 536-548.
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Raymond Alexander, Sepehr Bozorgzadeh, Ali Khosousi & Seth B. Dworkin. (2018) Development and testing of a soot particle concentration estimator using Lagrangian post-processing. Engineering Applications of Computational Fluid Mechanics 12:1, pages 236-249.
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Armin Veshkini & Seth B. Dworkin. (2017) A computational study of soot formation and flame structure of coflow laminar methane/air diffusion flames under microgravity and normal gravity. Combustion Theory and Modelling 21:5, pages 864-878.
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Articles from other publishers (37)

Carson Chu, Peng Liu, Ibrahim Alsheikh, Faruk Aydin, Raul Andres Serrano-Bayona & William L. Roberts. (2024) The flame length measurements of oxygen-enriched carbon dioxide-diluted methane inverse diffusion flames. Combustion and Flame 262, pages 113282.
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Yue Zhu, Bingkun Wu, Tianjiao Li & Dong Liu. (2024) Chemical effects of natural gas components on polycyclic aromatic hydrocarbons and soot formation in inverse diffusion flames. Case Studies in Thermal Engineering 55, pages 104112.
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Liang Qiu, Xintong Zhang, Yang Hua, Shun Meng, Yu Zhang & Yejian Qian. (2024) Effects of oxygen addition to the fuel stream on the soot formation in an ethylene coflow partially premixed flame based on the orthogonal decoupling method. Fuel 357, pages 129964.
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BingKun Wu, TianJiao Li & Dong Liu. (2023) Sensitivity analysis of modeling parameters to soot and PAHs prediction in ethylene inverse diffusion flame. Science China Technological Sciences 67:2, pages 486-498.
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Tianjiao Li, Chuanxin Zhang, Carson Chu, Bingkun Wu, Weijie Yan & Dong Liu. (2023) H 2 /NH 3 Addition Effects on Flame Characteristics and Soot Formation in Ethylene Inverse Diffusion Flame . Energy & Fuels 37:13, pages 9514-9529.
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Francisco Cepeda, Seth B. Dworkin & Ahmet E. Karataş. (2023) Investigation of soot suppression by ammonia addition to laminar ethylene flames at varying pressure. Combustion and Flame 251, pages 112728.
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Dezhi Zhou, Shufan Zou, Wesley R. Boyette, Thibault F. Guiberti, William L. Roberts & Suo Yang. (2023) Pressure effects on soot formation and evolution in turbulent jet flames. Physics of Fluids 35:1.
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Francisco Cepeda, Luke Di Liddo, Marek Serwin, Ahmet E. Karataş & Seth B. Dworkin. (2023) On the sudden reversal of soot formation by oxygen addition in DME flames. Proceedings of the Combustion Institute 39:2, pages 1997-2005.
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Francesco Carbone, Kevin Gleason & Alessandro Gomez. 2023. Combustion Chemistry and the Carbon Neutral Future. Combustion Chemistry and the Carbon Neutral Future 27 61 .
Carson Chu, Mohammed H. Zaher & Murray J. Thomson. (2022) The temperature dependence of soot formation in laminar coflow aromatic flames. Combustion and Flame 241, pages 112074.
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Carson Chu, Yasaman Amidpour, Nick A. Eaves & Murray J. Thomson. (2021) An experimental and numerical study of the effects of reactant temperatures on soot formation in a coflow diffusion ethylene flame. Combustion and Flame 233, pages 111574.
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Rodrigo Demarco, Alejandro Jerez, Fengshan Liu, Longfei Chen & Andrés Fuentes. (2021) Modeling soot formation in laminar coflow ethylene inverse diffusion flames. Combustion and Flame 232, pages 111513.
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Dezhi Zhou & Suo Yang. (2021) Soot-based Global Pathway Analysis: Soot formation and evolution at elevated pressures in co-flow diffusion flames. Combustion and Flame 227, pages 255-270.
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Mingyan Gu, Fengshan Liu, Jean-Louis Consalvi & Ömer L. Gülder. (2021) Effects of pressure on soot formation in laminar coflow methane/air diffusion flames doped with n-heptane and toluene between 2 and 8 atm. Proceedings of the Combustion Institute 38:1, pages 1403-1412.
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Carson Chu, Ali Naseri, Tirthankar Mitra, Mehran Dadsetan, Anton Sediako & Murray J. Thomson. (2021) The effect of elevated reactant temperatures on soot nanostructures in a coflow diffusion ethylene flame. Proceedings of the Combustion Institute 38:2, pages 2525-2532.
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Mehdi Jadidi, Stevan Kostic, Leonardo Zimmer & Seth B. Dworkin. (2020) An Artificial Neural Network for the Low-Cost Prediction of Soot Emissions. Energies 13:18, pages 4787.
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Amin Mansouri, Leonardo Zimmer, Seth B. Dworkin & Nick A. Eaves. (2020) Impact of pressure-based HACA rates on soot formation in varying-pressure coflow laminar diffusion flames. Combustion and Flame 218, pages 109-120.
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Liang Qiu, Yang Hua, Yuan Zhuang, Jiangjun Wei, Yejian Qian & Xiaobei Cheng. (2020) Numerical investigation into the decoupling effects of hydrogen blending on flame structure and soot formation in a laminar ethylene diffusion flame. International Journal of Hydrogen Energy 45:31, pages 15672-15682.
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Xiaohan Ren, Huanhuan Xu, Fengshan Liu, Zhiqiang Wang & Qiang Li. (2020) Effects of oxygen concentration on the thermal and chemical structures of laminar coflow CO/H2 diffusion flames burning in O2/H2O atmosphere. Fuel 270, pages 117474.
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L. Zimmer & F. Pereira. (2020) Limitations of simplified models to predict soot formation in laminar flames. Journal of the Brazilian Society of Mechanical Sciences and Engineering 42:6.
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Lei Xu, Fuwu Yan, Yu Wang & Suk Ho Chung. (2020) Chemical effects of hydrogen addition on soot formation in counterflow diffusion flames: Dependence on fuel type and oxidizer composition. Combustion and Flame 213, pages 14-25.
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Junjun Guo, Prabhu Selvaraj, Yihao Tang, Hong G. Im & Venkatramanan Raman. (2020) An analysis of soot formation pathways in laminar coflow ethylene flame at higher pressures. An analysis of soot formation pathways in laminar coflow ethylene flame at higher pressures.
Cuiqi Zhang, Longfei Chen, Shuiting Ding, Huanhuan Xu, Guangze Li, Jean-Louis Consalvi & Fengshan Liu. (2019) Effects of soot inception and condensation PAH species and fuel preheating on soot formation modeling in laminar coflow CH4/air diffusion flames doped with n-heptane/toluene mixtures. Fuel 253, pages 1371-1377.
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Yu Wang & Suk Ho Chung. (2019) Soot formation in laminar counterflow flames. Progress in Energy and Combustion Science 74, pages 152-238.
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Nasreldin M. Mahmoud, Fuwu Yan & Yu Wang. (2019) Effects of fuel inlet boundary condition on aromatic species formation in coflow diffusion flames. Journal of the Energy Institute 92:2, pages 288-297.
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Fuwu Yan, Lei Xu, Yu Wang, Sungwoo Park, S. Mani Sarathy & Suk Ho Chung. (2019) On the opposing effects of methanol and ethanol addition on PAH and soot formation in ethylene counterflow diffusion flames. Combustion and Flame 202, pages 228-242.
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Tongfeng Zhang, Liyun Zhao, Mohammad Reza Kholghy, Sébastien Thion & Murray J. Thomson. (2019) Detailed investigation of soot formation from jet fuel in a diffusion flame with comprehensive and hybrid chemical mechanisms. Proceedings of the Combustion Institute 37:2, pages 2037-2045.
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Fabrizio Bisetti, Ahmed Abdelgadir, Scott A. Steinmetz, Antonio Attili & William L. Roberts. (2018) Self-similar scaling of pressurised sooting methane/air coflow flames at constant Reynolds and Grashof numbers. Combustion and Flame 196, pages 300-313.
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Huanhuan Xu, Fengshan Liu, Shaozeng Sun, Yijun Zhao, Shun Meng, Wenbo Tang, Dongdong Feng & MingYan Gu. (2018) Influence of preheating and burner geometry on modeling the attachment of laminar coflow CH4/air diffusion flames. Combustion and Flame 191, pages 381-393.
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Ahmed Abdelgadir, Ihsan Allah Rakha, Scott A. Steinmetz, Antonio Attili, Fabrizio Bisetti & William L. Roberts. (2017) Effects of hydrodynamics and mixing on soot formation and growth in laminar coflow diffusion flames at elevated pressures. Combustion and Flame 181, pages 39-53.
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Huanhuan Xu, Fengshan Liu, Shaozeng Sun, Yijun Zhao, Shun Meng & Wenbo Tang. (2017) Effects of H 2 O and CO 2 diluted oxidizer on the structure and shape of laminar coflow syngas diffusion flames. Combustion and Flame 177, pages 67-78.
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Armin Veshkini, Nick A. Eaves, Seth B. Dworkin & Murray J. Thomson. (2016) Application of PAH-condensation reversibility in modeling soot growth in laminar premixed and nonpremixed flames. Combustion and Flame 167, pages 335-352.
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Mohammad Reza Kholghy, Armin Veshkini & Murray John Thomson. (2016) The core–shell internal nanostructure of soot – A criterion to model soot maturity. Carbon 100, pages 508-536.
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Ali Khosousi, Fengshan Liu, Seth B. Dworkin, Nick A. Eaves, Murray J. Thomson, Xu He, Yujie Dai, Yongli Gao, Fushui Liu, Shijin Shuai & Jianxin Wang. (2015) Experimental and numerical study of soot formation in laminar coflow diffusion flames of gasoline/ethanol blends. Combustion and Flame 162:10, pages 3925-3933.
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Jean-Louis Consalvi, Fengshan Liu, Jorge Contreras, Muhammad Kashif, Guillaume Legros, Shijin Shuai & Jianxin Wang. (2015) Numerical study of soot formation in laminar coflow diffusion flames of methane doped with primary reference fuels. Combustion and Flame 162:4, pages 1153-1163.
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Jean-Louis Consalvi & Fengshan Liu. (2015) Numerical study of the effects of pressure on soot formation in laminar coflow n-heptane/air diffusion flames between 1 and 10 atm. Proceedings of the Combustion Institute 35:2, pages 1727-1734.
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Yuan Xiong, Min Suk Cha & Suk Ho Chung. (2015) Fuel density effect on near nozzle flow field in small laminar coflow diffusion flames. Proceedings of the Combustion Institute 35:1, pages 873-880.
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