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Cooling System Design of an APC (CRDI Engine) Using Simulation Software
Technical Paper
2007-01-3708
ISSN: 0148-7191, e-ISSN: 2688-3627
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Language:
English
Abstract
This paper describes an effort to optimize the design procedure by integrating a suite of virtual tools using available software and at the same time fool proofing the process by imbedding a Design and Failure Mode Effect Analysis (DFMEA). The same has been applied in the field of armored vehicles for defense services where cooling requirements are unique and operational conditions at the very extreme especially in the Indian context.
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Authors
- Vinod Mathews - College of Engineering Pune
- Shreyas Joshi - College of Engineering Pune
- M. R. Nandgaonkar - College of Engineering Pune
- S. R. Kajale - College of Engineering Pune
- M. Niranjan - Engineering Research Centre, TATA Motors Limited
- S. Krishnan - Engineering Research Centre, TATA Motors Limited
Topic
Citation
Mathews, V., Joshi, S., Nandgaonkar, M., Kajale, S. et al., "Cooling System Design of an APC (CRDI Engine) Using Simulation Software," SAE Technical Paper 2007-01-3708, 2007, https://doi.org/10.4271/2007-01-3708.Also In
References
- Sakai T. Ishiguro S. Sudoh Y. Raab G. Hager J. The Optimum Design of Engine Cooling System by Computer Simulation SAE, International Truck & Bus Meeting 1994 Seattle USA
- Corbel Jean-Claude “An Original Simulation Method for Car Engine Cooling Systems: A Modular system” SAE Technical Paper Series 870713
- Srun AP Ngy “A Simple Engine Cooling System Simulation Model” SAE Technical Paper Series 1999-01-0237 1999
- Fellague Kader A. Hu S. Huey Willoughby Donald A. “Determination of the Effects of Inlet Air Velocity and Temperature Distributions on the Performance of an Automotive Radiator” SAE Technical Paper Series 940771
- Chiang Edward C Huang George P.C. Chang Zintal Johnson John H. “A One Dimensional Transient Compressible Flow Model for Cooling Air Flow Rate Computation” SAE Technical Paper Series 900721
- Heywood J.B. Internal Combustion Engine Fundamentals McGraw-Hill Book Company New York 1988
- Incropera Frank P. Dewitt David P. Introduction to Heat Transfer John Wiley & Sons Inc. New York 1985
- Mathur M.L Sharma R.P. Internal Combustion Engines Dhanpat Rai Publications Seventh Edition, Reprint 2001 519 554