A high efficiency rooftop air conditioning system using multi-speed compressors

IF 3.5 2区 工程技术 Q1 ENGINEERING, MECHANICAL
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Abstract

This study delineates a meticulous exploration of technologies to enhance the energy efficiency of rooftop air conditioning units, employing the DOE/ORNL heat pump design model for comprehensive engineering design and optimization. A baseline rooftop air conditioning unit, featuring a 13 ton (45.7 kW) cooling capacity and a 17.9 integrated energy efficiency ratio, served as the point of departure for substantive efficiency enhancements. Key modifications included the consolidation of two refrigerant circuits into one, integrating three parallel 2-stage (dual-speed) compressors, fan replacements with high-efficiency substitutes. Notably, a lower global warming potential refrigerant, R452B, was evaluated as a substitute for R-410A, demonstrating better performance in the lab prototype. The achieved measured integrated energy efficiency ratio of 21.4 in the lab prototype surpassed the baseline integrated energy efficiency ratio. Comparative evaluations between R410A and R452B indicated heightened efficiency with the latter, showcasing a lab-demonstrated integrated energy efficiency ratio of 22.4 at the rated capacity of 13.8 ton (48.5 kW) and 23.9 integrated energy efficiency ratio at the rated capacity of 10 ton (35.2 kW). This research underscores the successful development of a rigorous, energy efficient rooftop air conditioning unit prototype with noteworthy environmental and economic implications.

使用多速压缩机的高效屋顶空调系统
本研究采用 DOE/ORNL 热泵设计模型进行综合工程设计和优化,对提高屋顶空调机组能效的技术进行了细致的探索。基准屋顶空调机组的制冷量为 13 吨(45.7 千瓦),综合能效比为 17.9,该机组是实质性能效提升的出发点。主要改造包括将两个制冷剂回路合并为一个,整合三个并联的 2 级(双速)压缩机,用高效替代品替换风扇。值得注意的是,一种全球升温潜能值较低的制冷剂 R452B 被评估为 R-410A 的替代品,在实验室原型机中表现出更好的性能。在实验室原型中测得的综合能效比为 21.4,超过了基准综合能效比。对 R410A 和 R452B 的比较评估表明,后者的效率更高,在实验室演示的额定容量为 13.8 吨(48.5 千瓦)时,综合能效比为 22.4;在额定容量为 10 吨(35.2 千瓦)时,综合能效比为 23.9。这项研究强调了严格、节能的屋顶空调设备原型的成功开发,具有显著的环境和经济意义。
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来源期刊
CiteScore
7.30
自引率
12.80%
发文量
363
审稿时长
3.7 months
期刊介绍: The International Journal of Refrigeration is published for the International Institute of Refrigeration (IIR) by Elsevier. It is essential reading for all those wishing to keep abreast of research and industrial news in refrigeration, air conditioning and associated fields. This is particularly important in these times of rapid introduction of alternative refrigerants and the emergence of new technology. The journal has published special issues on alternative refrigerants and novel topics in the field of boiling, condensation, heat pumps, food refrigeration, carbon dioxide, ammonia, hydrocarbons, magnetic refrigeration at room temperature, sorptive cooling, phase change materials and slurries, ejector technology, compressors, and solar cooling. As well as original research papers the International Journal of Refrigeration also includes review articles, papers presented at IIR conferences, short reports and letters describing preliminary results and experimental details, and letters to the Editor on recent areas of discussion and controversy. Other features include forthcoming events, conference reports and book reviews. Papers are published in either English or French with the IIR news section in both languages.
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