Research on Energy Consumption Model of Heat Pump Air Conditioning System for New Energy Vehicles Based on Digital Technology

Q3 Environmental Science
Jingling Qin
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Abstract

Energy shortages and environmental degradation are issues that are getting more and more significant globally. New energy vehicles are being promoted by the state due to the advantages of low pollution and low fuel consumption. However, due to battery technology, the range of new energy vehicles cannot meet the needs of users. As the most energy-efficient auxiliary device, the energy consumption of air conditioning will significantly reduce the range of new energy vehicles. In low temperature environments, heating energy consumption will reduce the range of vehicles by more than 50%. Therefore, the research aims to reduce the energy consumption of air conditioning systems in new energy vehicles by reducing load demand and improving operating efficiency. The study designs a low-temperature heat pump air conditioning system based on digital technology and then uses a computational algorithm to construct an energy consumption model for the heat pump air conditioning system of a new energy vehicle. According to the test results, the system’s average increase in heat production after activating the enthalpy charge is 35% and its average COP is 0.14% lower than when switched off. At -5oC, the air outlet temperature of the system reaches up to 50.0oC. Summer cooling energy consumption increases exponentially with temperature, while winter heating energy consumption decreases linearly with temperature. In addition, the range decreases significantly as the ambient temperature deviates from the human comfort zone. The decline in the winter range is more severe than that in summer, moreover, the range of modern energy vehicles is reduced by 30% at an average winter temperature of -10oC. In summary, the low-temperature heat pump system offers greater performance. It is more useful in real-world applications and can offer a rational alternative to air conditioning’s energy-saving tactics.
基于数字技术的新能源汽车热泵空调系统能耗模型研究
能源短缺和环境恶化是全球日益突出的问题。新能源汽车因其低污染、低油耗等优势,正在被国家大力推广。然而,由于电池技术的原因,新能源汽车的续航能力无法满足用户的需求。空调作为最节能的辅助设备,其能耗将大大降低新能源汽车的续航里程。在低温环境下,制热能耗将使车辆续航里程减少 50%以上。因此,该研究旨在通过降低负载需求和提高运行效率来降低新能源汽车空调系统的能耗。该研究设计了一种基于数字技术的低温热泵空调系统,然后利用计算算法构建了新能源汽车热泵空调系统的能耗模型。测试结果表明,启动焓充后,系统制热量平均增加 35%,平均 COP 比关闭时降低 0.14%。在零下 5 摄氏度时,系统的空气出口温度高达 50.0 摄氏度。夏季制冷能耗随温度呈指数增长,而冬季制热能耗则随温度呈线性下降。此外,当环境温度偏离人体舒适区时,能耗范围也会明显缩小。冬季续航里程的下降比夏季更为严重,此外,在冬季平均温度为零下 10 摄氏度时,现代能源汽车的续航里程会减少 30%。总之,低温热泵系统具有更高的性能。在实际应用中,它的作用更大,可以合理替代空调的节能策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Strategic Planning for Energy and the Environment
Strategic Planning for Energy and the Environment Environmental Science-Environmental Science (all)
CiteScore
1.50
自引率
0.00%
发文量
25
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