Analysis of resorption working pairs for air conditioners of electric vehicles
作者: L.W. Wang , L. Jiang , J. Gao , P. Gao , R.Z. Wang
DOI: 10.1016/J.APENERGY.2017.06.077
关键词: Analytical chemistry 、 Halide 、 Sorption 、 Air conditioning 、 Resorption 、 Electric vehicle 、 Heat exchanger 、 Energy storage 、 Mineralogy 、 Coefficient of performance 、 Chemistry
摘要: Abstract Conventional compression type air conditioners (ACs) consume a large part of the electricity batteries on-board electric vehicles, and that will make cruising mileage shorter. Sorption resorption cycles, which are intermittent, may solve this question by energy storage phases. Both sorption cycles analyzed compared, both them have simpler structure if compared with conventional AC for only two heat exchangers required. The equilibrium performance analysis shows working pairs has higher density coefficient (COP) than when high temperature salt cycle is same halide cycle. experimental Clapeyron curves studied, CaCl 2 -NH 4 Cl-NH 3 best performance. Compared MnCl -CaCl , COP improves 160% 35% at least, respectively. also . They similar smallest density, consider conditions in whole year. required car 0.23–0.265 kWh/km, acceptable results AC.
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