Exergy-based ecological optimization for a four-temperature-level absorption heat pump with heat resistance, heat leakage and internal irreversibility

Chen Lingen; Ge Yanlin; Qin Xiaoyong; Xie Zhihui

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Exergy-based ecological optimization for a four-temperature-level absorption heat pump with heat resistance, heat leakage and internal irreversibility

机译：基于热量的生态优化，具有耐热性，热泄漏和内部不可逆性的四温度级吸收式热泵

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Based on irreversible four-temperature-level (FTL) cycle models, an ecological criterion function of absorption heat pump (AHP) plants is proposed. This function can attain a compromise in inter restricted relations between exergy output and exergy loss of AHP plants. Relations among ecological function, coefficient of performance (COP), heating load, exergy output and exergy loss, and various loss factors are derived. Simplified relations are derived when various irreversibility factors can be ignored. The exergy-based ecological characteristics are analyzed through numerical examples. The results can provide some new suggestions about parameter selection for practical AHP plants. (C) 2018 Elsevier Ltd. All rights reserved.

机译：基于不可逆的四温度水平（FTL）循环模型，提出了吸收式热泵（AHP）装置的生态标准函数。该功能可以在AHP工厂的火用输出和火用损失之间的相互制约关系中取得折中。推导了生态功能，性能系数（COP），热负荷，火用输出和火用损失以及各种损失因素之间的关系。当可以忽略各种不可逆因素时，可以得到简化的关系。通过数值算例分析了基于火用的生态特征。研究结果可为实际的AHP装置参数选择提供一些新的建议。（C）2018 Elsevier Ltd.保留所有权利。

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来源
《International Journal of Heat and Mass Transfer》 |2019年第2期|855-861|共7页
作者
Chen Lingen; Ge Yanlin; Qin Xiaoyong; Xie Zhihui;
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作者单位

Naval Univ Engn, Inst Thermal Sci & Power Engn, Wuhan 430033, Hubei, Peoples R China;

Naval Univ Engn, Mil Key Lab Naval Ship Power Engn, Wuhan 430033, Hubei, Peoples R China;

Naval Univ Engn, Coll Power Engn, Wuhan 430033, Hubei, Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Absorption heat pump; Irreversible cycle; Four-temperature-level cycle; Exergy-based ecological criterion; Finite time thermodynamics;

机译：吸收式热泵;不可逆循环;四温水平循环;基于能值的生态准则;有限时间热力学;

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1. Ecological performance of four-temperature-level absorption heat transformer with heat resistance, heat leakage and internal irreversibility [J] . Qin Xiaoyong, Chen Lingen, Xia Shaojun International Journal of Heat and Mass Transfer . 2017,第nova期

机译：具有耐热性，散热性和内部不可逆性的四温级吸收式热转换器的生态性能
2. Exergetic, ecological and thermo-economic (3E) optimization of an absorption heat pump with heat resistance, heat leakage and two internal irreversibilities: Comparison [J] . International Journal of Refrigeration . 2020,第期

机译：耐热，散热，散热和两个内部不缩义的吸收热泵优化，生态和热经济（3E）优化：比较
3. Thermo-ecological analysis and optimization of a three-heat-reservoir absorption heat pump with two internal irreversibilities and external irreversibility [J] . Nemogne Rodrigue Leo Fossi, Nouadje Brigitte Astrid Medjo, Wouagfack Paiguy Armand Ngouateu, International Journal of Refrigeration . 2019,第期

机译：具有两个内部不可逆转录和外部不可逆转性的三热储层吸收热泵的热生态分析与优化
4. FINITE TIME THERMODYNAMICS BASED ECOLOGICAL OPTIMIZATION OF IRREVERSIBLE STIRLING AND ERICSSON HEAT PUMPS USING GENETIC ALGORITHM [C] . MISHRA M., SALHOTRA R., PATHAK A. Congres International du Froid de I'IIF . 2011

机译：基于有限时间的基于遗传算法的不可逆斯特林和爱立信热泵的生态优化
5. Heat transfer and fluid flow characteristics in various micro devices for the development of micro absorption heat pump systems [D] . Hu, Jinshan 2007

机译：用于开发微吸收式热泵系统的各种微设备中的传热和流体流动特性
6. On Comparison of Series and Numerical Solutions for Flow of Eyring-Powell Fluid with Newtonian Heating And Internal Heat Generation/Absorption [O] . Tasawar Hayat, Shafqat Ali, Muhammad Asif Farooq, -1

机译：牛顿加热和内部生热/吸收对鲍威尔流体流动的级数和数值解的比较
7. Heating load and COP optimizations for a class of generalized irreversible universal steady-flow variable-temperature heat reservoir heat pump cycle model [O] . H. Feng, L. Chen, F. Sun 2010

机译：加热负荷和COP优化一类广义不可逆转通用稳压可变温度储层热泵循环模型
8. Ideal Fluid Properties for Optimizing Absorption Heat Pump Performance [R] . Perez-Blanco, H. , Patterson, M. R. , Braunstein, J. 1987

机译：理想的流体特性，优化吸收式热泵性能

Exergy-based ecological optimization for a four-temperature-level absorption heat pump with heat resistance, heat leakage and internal irreversibility

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