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Combustion Theory and Modelling Volume 12, 2008 - Issue 2
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Original Articles

Diesel combustion modelling using LES turbulence model with detailed chemistry

Y. H. Li Department of Mechanical Engineering, Iowa State University, Ames, IA, 50011, USA
&
S.-C. Kong Department of Mechanical Engineering, Iowa State University, Ames, IA, 50011, USA
Pages 205-219 | Published online: 20 Mar 2008

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Vassilios Papapostolou, Nilanjan Chakraborty, Markus Klein & Hong G. Im. (2019) Effects of Reaction Progress Variable Definition on the Flame Surface Density Transport Statistics and Closure for Different Combustion Regimes. Combustion Science and Technology 191:8, pages 1276-1293.
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Xiaohua Ren, Lei Zhang & Zhongli Ji. (2019) Simulation of diesel spray combustion using LES and a multicomponent vapourisation model. Combustion Theory and Modelling 23:1, pages 87-104.
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Markus Klein, Christian Kasten, Nilanjan Chakraborty, Nurzhan Mukhadiyev & Hong G. Im. (2018) Turbulent scalar fluxes in H2-air premixed flames at low and high Karlovitz numbers. Combustion Theory and Modelling 22:6, pages 1033-1048.
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Nilanjan Chakraborty, Markus Klein, Dana Alwazzan & Hong G. Im. (2018) Surface Density Function statistics in hydrogen-air flames for different turbulent premixed combustion regimes. Combustion Science and Technology 190:11, pages 1988-2002.
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Sujith Sukumaran, Cuong Van Huynh & Song-Charng Kong. (2013) Numerical Modeling of Soot Emissions in Diesel Sprays Based on Detailed Fuel and PAH Chemistry. Combustion Science and Technology 185:11, pages 1696-1714.
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K. Li & L.X. Zhou. (2012) Studies of the Effect of Spray Inlet Conditions on the Flow and Flame Structures of Ethanol-Spray Combustion by Large-Eddy Simulation. Numerical Heat Transfer, Part A: Applications 62:1, pages 44-59.
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Yuxin Zhang & ChristopherJ. Rutland. (2012) A mixing controlled direct chemistry (MCDC) model for diesel engine combustion modelling using large eddy simulation. Combustion Theory and Modelling 16:3, pages 571-588.
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Bing Hu, ChristopherJ. Rutland & TusharA. Shethaji. (2010) A Mixed-Mode Combustion Model for Large-Eddy Simulation of Diesel Engines. Combustion Science and Technology 182:9, pages 1279-1320.
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Articles from other publishers (18)

L. X. Zhou. (2023) An Eulerian–Eulerian–Lagrangian modeling of two-phase combustion. Theoretical and Computational Fluid Dynamics.
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P. A. Lakshminarayanan & Yogesh V. AghavHaiwen Ge. 2022. Modelling Diesel Combustion. Modelling Diesel Combustion 359 381 .
L. X. Zhou. 2022. Clean Coal and Sustainable Energy. Clean Coal and Sustainable Energy 3 18 .
Daniele Farrace, Ronny Panier, Martin Schmitt, Konstantinos Boulouchos & Yuri M. Wright. (2015) Analysis of Averaging Methods for Large Eddy Simulations of Diesel Sprays. SAE International Journal of Fuels and Lubricants 8:3, pages 568-580.
Crossref
K. Li, L.X. Zhou, C.K. Chan & H.G. Wang. (2015) Large-eddy simulation of ethanol spray combustion using a SOM combustion model and its experimental validation. Applied Mathematical Modelling 39:1, pages 36-49.
Crossref
Chi-Wei Tsang, Mario F. Trujillo & Christopher J. Rutland. (2014) Large-eddy simulation of shear flows and high-speed vaporizing liquid fuel sprays. Computers & Fluids 105, pages 262-279.
Crossref
Guang-Lan Xu, Chun-De Yao & Christopher J Rutland. (2014) Simulations of diesel–methanol dual-fuel engine combustion with large eddy simulation and Reynolds-averaged Navier–Stokes model. International Journal of Engine Research 15:6, pages 751-769.
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J. Tillou, J.-B. Michel, C. Angelberger & D. Veynante. (2014) Assessing LES models based on tabulated chemistry for the simulation of Diesel spray combustion. Combustion and Flame 161:2, pages 525-540.
Crossref
Ke LI, Lixing ZHOU & C.K. CHAN. (2014) Large-eddy Simulation of Ethanol Spray-Air Combustion and Its Experimental Validation. Chinese Journal of Chemical Engineering 22:2, pages 214-220.
Crossref
Sujith Sukumaran, Song-Charng Kong & Nam Hyo Cho. Modeling Evaporating Diesel Sprays Using an Improved Gas Particle Model. Modeling Evaporating Diesel Sprays Using an Improved Gas Particle Model.
Yuxin Zhang & Christopher J. Rutland. (2013) A further evaluation of the mixing controlled direct chemistry (MCDC) combustion model for diesel engine combustion using large eddy simulation. Fuel 105, pages 272-282.
Crossref
Federico Perini, Emanuele Galligani & Rolf D. Reitz. (2012) An Analytical Jacobian Approach to Sparse Reaction Kinetics for Computationally Efficient Combustion Modeling with Large Reaction Mechanisms. Energy & Fuels 26:8, pages 4804-4822.
Crossref
Lei Zhang & Song-Charng Kong. (2012) Multicomponent vaporization modeling of bio-oil and its mixtures with other fuels. Fuel 95, pages 471-480.
Crossref
U. B. Azimov & K. S. Kim. (2011) Large-eddy simulation of air entrainment during diesel spray combustion with multi-dimensional CFD. International Journal of Automotive Technology 12:6, pages 795-812.
Crossref
Lei Zhou, Ming Jia, Chun Long Xu, Qiang Zhou & Jun Han. (2011) Application of the Algebraic Subgrid Turbulent Kinetic Energy Model in LES Model. Advanced Materials Research 347-353, pages 2576-2581.
Crossref
C J Rutland. (2017) Large-eddy simulations for internal combustion engines – a review. International Journal of Engine Research 12:5, pages 421-451.
Crossref
Lei Zhang & Song-Charng Kong. (2011) High-pressure vaporization modeling of multi-component petroleum–biofuel mixtures under engine conditions. Combustion and Flame 158:9, pages 1705-1717.
Crossref
Yuanhong Li & Song-Charng Kong. (2011) Coupling conjugate heat transfer with in-cylinder combustion modeling for engine simulation. International Journal of Heat and Mass Transfer 54:11-12, pages 2467-2478.
Crossref

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