Evaluation of Minimum,Maximum and Optimum Source Temperature for Solar-Powered Adsorption Refrigeration System

Nitin D. Banker; Devendra Dandotiya; Sai Vamsi Reddy Morthala; Mahesh Gaddam; Sridhar Kakileti

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Evaluation of Minimum,Maximum and Optimum Source Temperature for Solar-Powered Adsorption Refrigeration System

机译：对太阳能吸附制冷系统的最小，最大和最佳源温度的评价

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Due to the utilization of solar thermal energy and environmentally friendly nature, globally there is a huge thrust toward the development of vapor adsorption refrigeration systems. Indeed, it is necessary to identify the minimum, maximum and optimum temperatures of heat source for solar-powered adsorption systems. With this objective, the presented paper focuses on the evaluation of lower, upper and optimum temperatures of the heat source to run the adsorption refrigeration system. Performance parameters, cooling capacity and coefficient of performance (COP), have been utilized to derive the limits of source (desorption) temperatures and applied to two different adsorbent–adsorbate pairs, namely Maxsorb Ⅲ–ethanol and Maxsorb Ⅲ– R134a. The adsorption and evaporator temperatures considered for the analysis are 25–40 °C and − 10–10 °C, respectively.

机译：由于利用太阳能热能和环保性质，在全球范围内，对蒸汽吸附制冷系统的发展存在巨大推力。实际上，有必要识别太阳能吸附系统的热源的最小，最大和最佳温度。通过此目的，所提出的纸张侧重于热源的低，上部和最佳温度的评估，以运行吸附制冷系统。已经利用了性能参数，冷却能力和性能系数（COP）来导出源极（解吸）温度并施加到两种不同的吸附剂 - 吸附物对，即MaxSorbⅢ-乙醇和MaxSorbⅢ-R134a。考虑分析的吸附和蒸发器温度分别为25-40°C和 - 10-10°C。

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来源
《Arabian Journal for Science and Engineering. Section A, Sciences》 |2020年第11期|9735-9745|共11页
作者
Nitin D. Banker; Devendra Dandotiya; Sai Vamsi Reddy Morthala; Mahesh Gaddam; Sridhar Kakileti;
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作者单位

School of Engineering and Applied Science Ahmedabad University Gujarat 380009 India;

Department of Mechanical Engineering Presidency University Bangalore Karnataka 560064 India;

Department of Mechanical Engineering Shiv Nadar University Dadri UP 201314 India;

Department of Mechanical Engineering Shiv Nadar University Dadri UP 201314 India;

Department of Mechanical Engineering Shiv Nadar University Dadri UP 201314 India;

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收录信息美国《科学引文索引》(SCI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Adsorption refrigeration system; Cooling capacity; COP; Desorption temperature;

机译：吸附制冷系统;冷却能力;警察;解吸温度;

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1. Evaluation of minimum desorption temperatures of thermal compressors in adsorption refrigeration cycles [J] . B. B. Saha, I. I. El-Sharkawy, A. Chakraborty, International Journal of Refrigeration . 2006,第7期

机译：评估吸附式制冷循环中热压机的最低解吸温度
2. OPTIMUM MATCHING OF HEAT SOURCE TEMPERATURE TO A SOLAR ADSORPTION AIR-CONDITIONING SYSTEM FOR MAXIMUM SOLAR COOLING COEFFICIENT OF PERFORMANCE [J] . Huilong Luo, R. Z. Wang, Y. J. Dai International journal of green energy . 2010,第1期

机译：将热源温度最佳匹配到太阳能吸收式空调系统上，以实现最大的太阳能冷却系数
3. Performance evaluation and determination of minimum desorption temperature of a two-stage air cooled silica gel/water adsorption system [J] . Mitra Sourav, Thu Kyaw, Saha Bidyut Baran, Applied Energy . 2017,第nova15期

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4. The Research and Development Trend of the Adsorption Refrigeration Technology and A New Exhaust Heat Powered Rotary Wheel Solid Adsorption Refrigeration System [C] . Lina Fang, Zhongbao Liu, Jiheng Qin, 4th International Conference on Sustainable Energy Technologies . 2005

机译：吸附式制冷技术的研究发展趋势及新型排气热力旋转轮式固体吸附式制冷系统
5. Empirically derived formulas to predict indoor maximum, average, and minimum temperatures in roofpond buildings using minimum climatic information . [D] . Kako, Ibrahim Kivarkis. 2009

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6. Environmental Health Oriented Optimal Temperature Control for Refrigeration Systems Based on a Fruit Fly Intelligent Algorithm [O] . Yuxiao Qin, Li Sun, Qingsong Hua 2018

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7. Solar-powered adsorption refrigeration cycle optimization [O] . Junaidi N. A., Suwa T. 2016

机译：太阳能吸附式制冷循环优化

Evaluation of Minimum,Maximum and Optimum Source Temperature for Solar-Powered Adsorption Refrigeration System

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