N.B. Totla & Y.J. Bhalerao. (2023) CFD simulation of in cylinder combustion of multi-cylinder diesel engine. Materials Today: Proceedings.
Crossref
X. Margot, P. Quintero, J. Gomez-Soriano & J. Escalona. (2021) Implementation of 1D–3D integrated model for thermal prediction in internal combustion engines. Applied Thermal Engineering 194, pages 117034.
Crossref
Edison Chukwuemeka, Giuliana Litrico, Karthik Puduppakkam, Tony Garratt, Cheng Wang, Yue Wang, Oleg Chernukhin, Sulipi Desai & Ellen Meeks. An Automated Workflow for Efficient Conjugate Heat Transfer Analysis of a Diesel Engine. An Automated Workflow for Efficient Conjugate Heat Transfer Analysis of a Diesel Engine.
Krzysztof Siczek, Marek Wozniak, Mihai Diaconu, Georgiana Dima, Luiza Ion & Ionela Bica. The Numerical Study on the Effect of CuO Nanoparticle Additive into SI Engine Coolant on the Engine Power. The Numerical Study on the Effect of CuO Nanoparticle Additive into SI Engine Coolant on the Engine Power.
Alberto Broatch, Xandra Margot, Jorge Garcia-Tiscar & Johan Escalona. Validation and Analysis of Heat Losses Prediction Using Conjugate Heat Transfer Simulation for an Internal Combustion Engine. Validation and Analysis of Heat Losses Prediction Using Conjugate Heat Transfer Simulation for an Internal Combustion Engine.
A. Broatch, P. Olmeda, X. Margot & J. Escalona. (2019) New approach to study the heat transfer in internal combustion engines by 3D modelling. International Journal of Thermal Sciences 138, pages 405-415.
Crossref
Angela Wu, Seunghwan Keum & Volker Sick. (2019) Large Eddy Simulations with Conjugate Heat Transfer (CHT) modeling of Internal Combustion Engines (ICEs). Oil & Gas Science and Technology – Revue d’IFP Energies nouvelles 74, pages 51.
Crossref
Giuseppe Cicalese, Fabio Berni, Stefano Fontanesi, Alessandro D'Adamo & Enrico Andreoli. A Comprehensive CFD-CHT Methodology for the Characterization of a Diesel Engine: from the Heat Transfer Prediction to the Thermal Field Evaluation. A Comprehensive CFD-CHT Methodology for the Characterization of a Diesel Engine: from the Heat Transfer Prediction to the Thermal Field Evaluation.
Prithwish Kundu, Riccardo Scarcelli, Sibendu Som, Andrew Ickes, Yan Wang, John Kiedaisch & M Rajkumar. Modeling Heat Loss through Pistons and Effect of Thermal Boundary Coatings in Diesel Engine Simulations using a Conjugate Heat Transfer Model. Modeling Heat Loss through Pistons and Effect of Thermal Boundary Coatings in Diesel Engine Simulations using a Conjugate Heat Transfer Model.
Saeed Jahangirian, Ashutosh Srivastava, Seyed Alireza Hosseini, Steven Ballard, Naiqiang Wu & John Kiedaisch. (2015) A Multi-Physics 3D Modeling Methodology for Multi-Cylinder Diesel Engine Thermal Management and Fatigue Life Prediction. SAE International Journal of Materials and Manufacturing 8:3, pages 893-904.
Crossref
E. Radenac, J. Gressier & P. Millan. (2014) Methodology of numerical coupling for transient conjugate heat transfer. Computers & Fluids 100, pages 95-107.
Crossref
Owais Iqbal, Kunal Arora & Manyam Sanka. (2014) Thermal Map of an IC Engine via Conjugate Heat Transfer: Validation and Test Data Correlation. SAE International Journal of Engines 7:1, pages 366-374.
Crossref
Zhelin Dong, Guohua Chen, Yankun Jiang & Chunfa Wang. Modeling of Transient Heat Transfer for the 3-D Coupling Components in an Internal-Combustion Engine. Modeling of Transient Heat Transfer for the 3-D Coupling Components in an Internal-Combustion Engine.
Helgi Fridriksson, Bengt Sunden, Shahrokh Hajireza & Martin Tuner. CFD Investigation of Heat Transfer in a Diesel Engine with Diesel and PPC Combustion Modes. CFD Investigation of Heat Transfer in a Diesel Engine with Diesel and PPC Combustion Modes.