Study of Ejector-Vapor Compression Hybrid Air-Conditioning System Using Solar Energy

机译：太阳能喷射－蒸气压缩混合空调系统的研究

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The ejector cycle has been recognized as a promising cycle for the utilization of solar energy for cooling. However,rnthe conventional ejector cycle suffers from low efficiency owing to a low evaporation temperature. This paperrnproposes a hybrid ejector-vapor compression heat pump cycle. This hybrid system uses an ejector cycle on the hightemperaturernside and a conventional vapor compression cycle on the low-temperature side to enhance the cyclernperformance of a solar-powered air conditioner. A cycle simulation showed that the proposed hybrid ejector cyclerncould operate during both the heating and cooling seasons and would provide energy savings. In heating mode, thernhybrid cycle could reduce energy consumption by up to 50%. In addition, the average energy-saving potentialrnduring the cooling season is about 20%, if half of the floor area is covered by the solar collector.

机译：喷射器循环已被认为是利用太阳能进行冷却的有前途的循环。但是，传统的喷射器循环由于蒸发温度低而效率低。本文提出了混合喷射器－蒸气压缩热泵循环。该混合动力系统在高温侧使用喷射器循环，而在低温侧使用常规的蒸气压缩循环，以增强太阳能空调的循环性能。循环模拟表明，提出的混合喷射器循环可以在供暖和制冷季节运行，并可以节省能源。在加热模式下，混合循环可以减少多达50％的能耗。此外，如果集热器覆盖一半的建筑面积，则在制冷季节的平均节能潜力约为20％。

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来源
《2012 Compressor/Refrigeration amp; Air Conditioning/High Performance Buildings Conferences at Purdue》|2012年|2541.1-2541.9|共9页
会议地点 Purdue IN(US)
作者
Chaobin DANG; Yoshitaka NAKAMURA; Eiji HIHARA;
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Department of Human and Engineered Environmental Studies, The University of Tokyo Kashiwanoha, Kashiwa, Chiba, Japan +81-4-7136-4647, dangcb@k.u-tokyo.ac.jp;

Department of Human and Engineered Environmental Studies, The University of Tokyo Kashiwanoha, Kashiwa, Chiba, Japan;

Department of Human and Engineered Environmental Studies, The University of Tokyo Kashiwanoha, Kashiwa, Chiba, Japan;

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1. Study of Hybrid Ejector-Vapor Compression Air-Conditioning System Using Solar Energy [J] . Chaobin Dang, Akihiko Shimizu, Yoshitaka Nakamura, 日本冷凍空調学会年次大会講演論文集 . 2012,第Null期

机译：太阳能混合喷射－蒸气压缩空调系统的研究
2. Study on Off-design Performance and Optimization of Ejector-Vapor Compression Cooling System Using Solar Energy [J] . Xu JIN, Zuozhou CHEN, Chaobin DANG, 日本冷凍空調学会年次大会講演論文集 . 2016,第期

机译：利用太阳能研究喷射器 - 蒸汽压缩冷却系统的缺失性能及优化研究
3. ENERGY AND EXERGY ANALYSIS OF COMPACT POWER GENERATION AND HYBRID SOLAR ENERGY-WASTE HEAT-BASED TRIPLE EFFECT EJECTOR-VAPOR ABSORPTION REFRIGERATION CYCLE [J] . RAJ KUMAR, ANIL KUMAR International journal of air-conditioning and refrigeration . 2013,第4期

机译：紧凑型发电与混合太阳能热三效射流-蒸气吸收制冷循环的能量与能动分析
4. Study of Hybrid Ejector-Vapor Compression Air-Conditioning System Using Solar Energy [C] . Chaobin Dang, Akihiko Shimizu, Yoshitaka Nakamura, 日本冷凍空調学会年次大会 . 2012

机译：利用太阳能研究混合喷射器 - 蒸汽压缩空调系统
5. Modeling of Hybrid Energy Storage Systems and Optimal Sizing of Solar/wind Hybrid Microgrid Power Systems [D] . Traoré, Abdrahamane 2018

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6. Environmental Assessment of a Hybrid Solar-Biomass Energy Supplying System: A Case Study [O] . Congguang Zhang, Jiaming Sun, Jieying Ma, 2019

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7. Study on Ejector - Vapor Compression Hybrid Air Conditioning System Using Solar Energy [O] . Dang Chaobin, Nakamura Yoshitaka, Hihara Eiji 2012

机译：太阳能喷射蒸汽压缩混合空调系统的研究。
8. Open-Cycle Absorption Solar Cooling. Part 3. Evaluation of Air-Conditioning Systems Utilizing Liquid Absorbents Regenerated by Solar Energy. Final Report [R] . Siebe, D. A., Wood, B. D., Collier, R. K. 1986

机译：开式循环吸收太阳能冷却。第3部分。利用太阳能再生液体吸收剂的空调系统评估。总结报告

Study of Ejector-Vapor Compression Hybrid Air-Conditioning System Using Solar Energy

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