Development of an automatic solar-powered domestic water cooling system with multi-stage Peltier devices

Tijani Ismaila B.; Al Hamadi Ahmad A. A.; Al Naqbi Khaled A. S. S.; Almarzooqi Rashed I. M.; Al Rahbi Noura K. S. R.

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Development of an automatic solar-powered domestic water cooling system with multi-stage Peltier devices

机译：带有多级Peltier装置的太阳能自动家用水冷却系统的开发

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One of the major problem that comes with summer season in the arid countries is rise in the temperature of water for both domestic and commercial building usage. At a persistent high temperature up to 55 degrees C for almost half of the year, people have to face challenging and sometimes unbearable hot water for drinking, bathing, and other general use. Cooling this water using conventional cyclic refrigeration is usually met with huge energy consumption that leads to upsurge in electricity tariff, and indirect rise in environmental pollution associated with all processes involved. By leveraging on the abundant solar energy during this period with a cooling technique based on thermoelectric device approach, an effective solution approach is proposed in this study. The proposed method is based on the philosophy of, "cooling the water by the heat of the sun", annexes the environmental friendly solar energy source and cooling technique to provide comfortable water. Design and implementation strategy towards practical deployment of the proposed solution is presented. The real-time results and analysis with a developed laboratory scale prototype show the effectiveness of the system in providing solution to this perennial water problem, and in addition serves as platform for further study. (C) 2018 Elsevier Ltd. All rights reserved.

机译：干旱国家的夏季来临的主要问题之一是家庭和商业建筑使用的水温升高。在将近一半的时间里，温度持续高达55摄氏度，人们不得不面对具有挑战性的，有时甚至是难以忍受的热水，才能饮用，沐浴和其他一般用途。使用常规循环制冷来冷却这种水通常会消耗大量能源，从而导致电价飙升，并间接增加与所涉及的所有过程相关的环境污染。通过利用基于热电装置方法的冷却技术在这段时期内利用充足的太阳能，提出了一种有效的解决方案。所提出的方法基于“通过太阳的热量冷却水”的理念，并附有环保的太阳能源和冷却技术以提供舒适的水。提出了针对所建议解决方案的实际部署的设计和实施策略。利用已开发的实验室规模的原型进行的实时结果和分析显示了该系统在解决该多年生水问题方面的有效性，此外还可以作为进一步研究的平台。（C）2018 Elsevier Ltd.保留所有权利。

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来源
《Renewable energy》 |2018年第ptaa期|416-431|共16页
作者
Tijani Ismaila B.; Al Hamadi Ahmad A. A.; Al Naqbi Khaled A. S. S.; Almarzooqi Rashed I. M.; Al Rahbi Noura K. S. R.;
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作者单位

Higher Coll Technol, ADMC, Elect Engn, Abu Dhabi, U Arab Emirates;

Higher Coll Technol, ADMC, Elect Engn, Abu Dhabi, U Arab Emirates;

Higher Coll Technol, ADMC, Elect Engn, Abu Dhabi, U Arab Emirates;

Higher Coll Technol, ADMC, Elect Engn, Abu Dhabi, U Arab Emirates;

Higher Coll Technol, ADMC, Elect Engn, Abu Dhabi, U Arab Emirates;

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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
Water cooling; Thermoelectric; Peltier devices; Solar energy; Renewable energy;

机译：水冷;热电;珀尔帖装置;太阳能;可再生能源;

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1. Thermal Equivalent Circuit of Peltier Device Considered Seebeck Effect and Driving Method Improving Cooling Efficiency of the Device [J] . RYO SEKIGUCHI, YUHAN LIU, YUJI SANO Electronics and communications in Japan . 2018,第5期

机译：考虑塞贝克效应的珀尔帖器件热等效电路及提高器件冷却效率的驱动方法
2. Decrease of Thermal Expansion of Ball Screw Used for Precision Positioning Devices by Peltier Module Cooling Based on Feedback Method [J] . Ning Zhu, Shigeomi Koshimizu, Takashi Nozaki, International journal of automation technology . 2013,第5期

机译：基于反馈法的珀耳帖模块冷却降低精密定位设备用滚珠丝杠的热膨胀
3. Ultrathin Thermoelectric Devices for On-Chip Peltier Cooling [J] . Gupta M. P., Sayer M.-H., Mukhopadhyay S., Components, Packaging and Manufacturing Technology, IEEE Transactions on . 2011,第9期

机译：片上珀耳帖冷却的超薄热电器件
4. DEVELOPMENT OF INVERTER AIR-COOLING HEAT PUMP SYSTEM WITH DOMESTIC HOT WATER: PART Ⅱ, PERFORMANCE ANALYSIS OF COOLING OPERATION WITH DOMESTIC HOT WATER OR DOMESTIC HOT WATER ONLY [C] . Shi Wenxing, Ma Jie, Chen Huajun, International Conference on Energy Conversion and Application (ICECA'2001) Vol.2; Jun 17-20, 2001; Wuhan . 2001

机译：国产热水变频空冷热泵系统的开发：第二部分，仅采用国产热水或国产热水进行制冷运行的性能分析
5. THERMODYNAMIC ASSESSMENT OF COOLING BY SOLAR-POWERED LITHIUM BROMIDE-WATER ABSORPTION CYCLES. [D] . TERANASTHIARPHAN, KITTI. 1981

机译：太阳能溴化锂-水吸收循环对冷却的热力学评估。
6. Development of a Solar-Powered IoT-Based Instrument for Automatic Measurement of Water Clarity [O] . Tuan Ngoc Pham, Anh Pham Huy Ho, Tuong Van Nguyen, 2020

机译：基于太阳能的基于物联网的水质自动测量仪的开发
7. Experimental Study of Heat Transfer in a Container Filled with Water and Cooled by a Peltier Device [O] . Hilmi Kuşçu, Kamil Kahveci 2016

机译：填充水的容器中的热传递的实验研究，由珀耳帖装置冷却
8. Development of Thermoelectric Power Generation and Peltier Cooling Properties of Materials for Thermoelectric Cryocooling Devices. [R] . Budak, S., Johnson, R. B., Xiao, Z., 2015

机译：热电冷冻装置材料的热电发电和珀耳帖冷却特性的研究。

Development of an automatic solar-powered domestic water cooling system with multi-stage Peltier devices

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