Dewey Dohoy Jung
Associate Professor
Mechanical Engineering
UNIVERSITY OF MICHIGAN DEARBORN
United States of America
Biography
Education Ph.D., Mechanical Engineering, University of Michigan, Ann Arbor, MI, 2001 M.S., Mechanical Engineering, Seoul Nation University, Korea, 1991 B.S., Mechanical Engineering, Seoul Nation University, Korea, 1989 About Prof. Jung has over 25 years of professional and academic experiences in automotive engineering. He has co-authored over 65 peer-reviewed journal and conference papers, and articles. Prof. Jung has developed 31 funded research and educational programs as the principal investigator (PI) and Co-PI with the total amount of awards over $3 million during his academic career. He is the recipient of the Distinguished Research Award from the University of Michigan-Dearborn in 2012. Sponsors include BorgWarner, Constellation Energy Group, Denso, Ford, General Dynamics Land Systems, GM, HATCI, Hyundai-Kia Motors, NSF, US DoE, US Army TARDEC.
Research Interest
Advanced energy conversion in automotive systems Internal combustion engine processes and systems Hybrid powertrain systems PEM fuel cell systems Vehicle thermal management and system integration
Publications
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Z. Filipi, H. Fathy, J. Hagena, A. Knafl, R. Ahlawat, J. Liu, D. Jung, D. Assanis, H. Peng and J. Stein, “Engine-in-the-Loop Testing for Evaluating Hybrid Propulsion Concepts and Transient Emissions – HMMWV Case Study,†2006 SAE Transactions: Journal of Commercial Vehicles, Vol.115, Sec. 2, pp. 23-41, 2006.
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H. Cho, D. Jung, Z. S. Filipi, D. N. Assanis, J. Vanderslice and W. Bryzik, “Application of Controllable Electric Coolant Pumps for Fuel Economy and Cooling Performance Improvement,†,†ASME J. Eng. Gas Turbines and Power, Vol. 129, Issue 1, pp 239-244, 2007.
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D. Jung, W. L. Wang, A. Knafl, T. J. Jacobs, S. Jack Hu, and D. N. Assanis, “Experimental Investigation of the Abrasive Flow Machining Effects on Injector Nozzle Geometries, Engine Performance and Emissions in a DI Diesel Engine,†International Journal of Automotive Technology, Vol.9, No. 1, pp 9-15, 2008.
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D. Jung, S. Yu, and D. N. Assanis, “Modeling of a PEM Fuel Cell with a Large Active Area for Thermal Behavior Analysis,†Technical Brief, Journal of Fuel Cell Science and Technology, Vol. 5, Iss. 4, 2008.
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S. Yu, and D. Jung, “Thermal Management Strategy for a Proton Exchange Membrane Fuel Cell System with a Large Active Cell Area,†Renewable Energy, Vol. 33, No. 12, pp 2540– 2548, 2008.
