Exergy analysis of an inter-city bus air-conditioning system

Tosun E.; Bilgili M.; Tuccar G.; Yasar A.; Aydin K.

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Exergy analysis of an inter-city bus air-conditioning system

机译：城际客车空调系统的火用分析

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In this paper, exergy analysis was implemented to improve the intercity bus air-conditioning (AC) system design. Firstly, an inter-city bus with a passenger capacity of 56 people was selected and then its hourly cooling load capacity was determined with the help of cooling load hourly analysis program (HAP). Analyses were performed for different air mixing ratios (MRs) and seasons. Coefficient of performance (COP), exergy efficiency (psi) and exergy destructions (Exdest) of whole system and its each sub-units were evaluated. Results demonstrated that the atmospheric air temperature and air MR substantially affect the inter-city bus AC systems' performance. According to the results obtained for July, when air MR is 0.5, maximum exergy destruction value was calculated as 6.96 kW at compressor. Exergy destruction values were computed as 2.78, 2.61 and 0.99 kW for evaporator, condenser and expansion valve, respectively.

机译：本文进行了火用分析以改善城际公交空调系统的设计。首先，选择了一辆载客量为56人的城际公交车，然后借助每小时的冷负荷分析程序（HAP）确定其每小时的冷负荷容量。针对不同的空气混合比（MRs）和季节进行了分析。评估了整个系统及其每个子单元的性能系数（COP），火用效率（psi）和火用破坏（Exdest）。结果表明，大气温度和空气MR会严重影响城际客车交流系统的性能。根据7月份获得的结果，当空气MR为0.5时，压缩机的最大火用破坏值计算为6.96 kW。计算出的蒸发器，冷凝器和膨胀阀的火用破坏值分别为2.78、2.61和0.99 kW。

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《International Journal of Exergy》 |2016年第4期|445-464|共20页
作者
Tosun E.; Bilgili M.; Tuccar G.; Yasar A.; Aydin K.;
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作者单位

Cukurova Univ, Dept Mech Engn, Fac Engn & Architecture, POB 01330, Adana, Turkey;

Cukurova Univ, Dept Mech Engn, Ceyhan Engn Fac, POB 01950, Adana, Turkey;

Adana Sci & Technol Univ, Dept Mech Engn, Fac Engn & Nat Sci, POB 01180, Adana, Turkey;

Cukurova Univ, Dept Mech Engn, Ceyhan Engn Fac, POB 01950, Adana, Turkey;

Cukurova Univ, Dept Automot Engn, Fac Engn & Architecture, POB 01330, Adana, Turkey;

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正文语种 eng
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exergy; exergy efficiency; inter-city bus; air conditioning; exergy destruction; COP; coefficient of performance; air mixing ratio; cooling load; isentropic efficiency; thermal transmittance; psychometric diagram; sensible and latent heat gains;

机译：火用;火用效率;城际客车;空调;火用破坏;COP;性能系数;空气混合比;冷却负荷;等熵效率;传热率;心理图;显热和潜热;

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Exergy analysis of an inter-city bus air-conditioning system

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