Engine, Emission Technology |
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PERFORMANCE DESIGN OF AN EXHAUST SUPERHEATER FOR WASTE HEAT RECOVERY OF CONSTRUCTION EQUIPMENT
Hyung Seok Heo, Suk Jung Bae, Sung Mok Hong, Seung Uk Park
Int J Automot Technol. 2018;19(2):221-231. DOI: https://doi.org/10.1007/s12239-018-0021-4
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Heat Transfer, Fluid and Thermal Engineering |
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DYNAMIC MODEL OF SUPERCRITICAL ORGANIC RANKINE CYCLE WASTE HEAT RECOVERY SYSTEM FOR INTERNAL COMBUSTION ENGINE
Jahedul Islam Chowdhury, Bao Kha Nguyen, David Thornhill
Int J Automot Technol. 2017;18(4):589-601. DOI: https://doi.org/10.1007/s12239-017-0059-8
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Fuel Cell, Hybrid and Electrical Vehicle |
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ACTIVE REGULATION OF BATTERY CHARGE-SUSTAINING IN ECMS: APPLICATION IN ENERGY MANAGEMENT FOR ENGINE WASTE HEAT RECOVERY SYSTEM
Z. LEI, H. XIE
Int J Automot Technol. 2016;17(6):1055-1065. DOI: https://doi.org/10.1007/s12239-016-0103-0
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Cited By 3 |
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Heat Transfer, Fluid and Thermal Engineering |
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AUTOMOTIVE WASTE HEAT RECOVERY: WORKING FLUID SELECTION AND RELATED BOUNDARY CONDITIONS
S. GLOVER, R. DOUGLAS, L. GLOVER, G. MCCULLOUGH, S. MCKENNA
Int J Automot Technol. 2015;16(3):399-409. DOI: https://doi.org/10.1007/s12239-015-0041-2
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Engine, Emission Technology |
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DESIGN OF AN AIR-COOLED CONDENSER FOR ENGINE COOLANT WASTE HEAT RECOVERY
S. J. BAE, H. S. HEO, C. J. KIM, H. Y. LEE
Int J Automot Technol. 2015;16(1):17-26. DOI: https://doi.org/10.1007/s12239-015-0002-9
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Cited By 3 |
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Heat Transfer, Fluid and Thermal Engineering |
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VIABLE COMBINED CYCLE DESIGN FOR AUTOMOTIVE APPLICATIONS
K.-B. KIM, K.-W. CHOI, K.-H. LEE
Int J Automot Technol. 2012;13(3):401-407. DOI: https://doi.org/10.1007/s12239-012-0037-0
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Cited By 4 |
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Heat Transfer, Fluid and Thermal Engineering |
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THERMAL DESIGN OF AUTOMOBILE EXHAUST BASED THERMOELECTRIC GENERATORS: OBJECTIVES AND CHALLENGES
K. M. SAQR, M. K. MANSOUR, M. N. MUSA
Int J Automot Technol. 2008;9(2):155-160.
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