2020
DOI: 10.3390/sym12081237
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A Study on Performance Characteristics of a Heat Pump System with High-Pressure Side Chiller for Light-Duty Commercial Electric Vehicles

Abstract: One of barriers for the present heat pump system’s application in an electric vehicle was decreased performance under cold ambient conditions due to the lack of evaporating heat source. In order to improve the heat pump’s performance, a high-pressure side chiller was additionally installed, and the tested heat pump system was modified with respect to refrigerant flow direction along with operating modes. In the present work, the performance characteristics of the heat pump system with a high-pressure side chil… Show more

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Cited by 3 publications
(1 citation statement)
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“…Lee et al proposed air source heat pump system with a heating coefficient of 3.26 and a heating capacity of 3.10 kW at an ambient temperature of −10 • C for cabin heating in electric vehicle [29]. Lee et al have experimentally investigated the performance characteristics of heat pump system integrated with a high pressure side chiller under cold and hot weather conditions for light duty commercial electric vehicles [30]. Jeffs et al integrated five different heat sources with heat pump system for efficient heating of battery and cabin.…”
Section: Introductionmentioning
confidence: 99%
“…Lee et al proposed air source heat pump system with a heating coefficient of 3.26 and a heating capacity of 3.10 kW at an ambient temperature of −10 • C for cabin heating in electric vehicle [29]. Lee et al have experimentally investigated the performance characteristics of heat pump system integrated with a high pressure side chiller under cold and hot weather conditions for light duty commercial electric vehicles [30]. Jeffs et al integrated five different heat sources with heat pump system for efficient heating of battery and cabin.…”
Section: Introductionmentioning
confidence: 99%