Photovoltaic Thermal Collectors with Nanofluids and Nano-Pcm
Al-Waeli, Ali H. a., Sopian, Kamaruzzaman, Kazem, Hussein A.
- 出版商: Springer
- 出版日期: 2024-01-21
- 售價: $5,810
- 貴賓價: 9.5 折 $5,520
- 語言: 英文
- 頁數: 132
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 9819991250
- ISBN-13: 9789819991259
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商品描述
This book gives you theory and design of PV/T systems. Are you interested in solar energy? If you are, you must have read about solar panels, or photovoltaics (PV). If you have installed a photovoltaic system, you must have noticed it not to generate the amount of power mentioned in its datasheet. A major issue that PV suffers from is its temperature, which causes a drop in its power. Among the solutions to this issue is to use active cooling methods, such as the hybrid photovoltaic thermal (PV/T) system. These systems can produce electrical and thermal energy simultaneously and within same area. The thermal collector serves to cool down the PV surface temperature, which negatively affects the PV efficiency, to reclaim the efficiency or bring it back close to standard testing conditions value. Moreover, the thermal collector will convey this heat using a working fluid and extract it as thermal energy. On the other hand, the electrical power generated from the PV can be utilized in standalone or grid-connected configuration. Moreover, the book presents a novel PV/T collector which can utilize nanofluids and nano-Phase Change Material (PCM) to enhance its performance in tropical climate conditions. The methods used to develop the heat transfer and energy balance equations are presented as well. PV/T collector numerical simulation using MATLAB and computational fluid dynamic (CFD) was also presented. Finally, the approach of life cycle cost analysis (LCCA) is presented to evaluate PV/T with nanofluid and nano-PCM, economically.
商品描述(中文翻譯)
本書提供了光伏/熱能(PV/T)系統的理論與設計。您對太陽能感興趣嗎?如果是,您一定聽說過太陽能板或光伏(PV)。如果您已經安裝了光伏系統,您可能會注意到它所產生的電力並未達到其數據表中所提到的數量。光伏系統面臨的一個主要問題是其溫度,這會導致電力下降。解決此問題的一種方法是使用主動冷卻技術,例如混合光伏熱能(PV/T)系統。這些系統可以在同一區域內同時產生電能和熱能。熱收集器的作用是降低光伏表面的溫度,這對光伏效率有負面影響,以恢復效率或使其接近標準測試條件的值。此外,熱收集器將通過工作流體傳遞這些熱量並將其提取為熱能。另一方面,從光伏產生的電力可以用於獨立或並網配置。此外,本書還介紹了一種新型的PV/T收集器,該收集器可以利用納米流體和納米相變材料(PCM)來提升其在熱帶氣候條件下的性能。開發熱傳遞和能量平衡方程的方法也有介紹。使用MATLAB和計算流體動力學(CFD)進行的PV/T收集器數值模擬也有呈現。最後,書中介紹了生命週期成本分析(LCCA)的方法,以經濟的方式評估使用納米流體和納米PCM的PV/T系統。
作者簡介
Ali H.A. Al-Waeli is an Assistant Professor in the engineering department at the American University of Iraq - Sulaimani (AUIS). He has obtained his bachelor's degree in Electrical and Computer Engineering from Sohar University, Oman in 2016. In 2019, Ali obtained a Ph.D. in renewable energy from SERI, UKM. He is also a reviewer peer reviewer in many international journals. He is also a member of international organizations such as IEEE, WSSET, IAENG, and ISES.
Kamaruzzaman Sopian obtained his BSc in Mechanical Engineering from the University of Wisconsin- Madison in 1985, MSc in Energy Resources from the University of Pittsburgh in 1989 and PhD. in Mechanical Engineering from the University of Miami - Coral Gables in 1997. He is presently the Professor and Director of the Solar Energy Research Institute (SERI), Universiti Kebangsaan Malaysia.
Hussein A Kazem obtained his BSc, MSc in electrical engineering from University of Technology, Iraq, also PhD from Newcastle University, UK. He is presently Associate Professor in Faculty of Engineering-Sohar University, Oman. He has been involved in the field of solar and renewable energy for more than twenty years. His main contributions are in standalone and grid-connected photovoltaic systems, solar radiation and systems modeling, solar water heating system, solar desalination, combined photovoltaic thermal or hybrid collector and solar/wind hybrid system. He has delivered keynotes speeches at national and international conferences on renewable energy. He is a winner of some national and international awards. He had completed some national and international research grants. He is chairman of the Renewable Energy and Sustainable Technology Research Group in Oman.
Miqdam T. Chaichan is a professor in mechanical engineering at the Energy and Renewable Energies Technology Center, in the University of Technology, Iraq. In 1982, he obtained his B.Sc. in mechanical engineering from the engineering college of Baghdad University and in 1989 he obtained a M.Sc. in power generation from the University of Technology, Baghdad.
作者簡介(中文翻譯)
阿里·哈米德·阿爾-瓦伊利(Ali H.A. Al-Waeli)是伊拉克蘇萊曼尼美國大學(American University of Iraq - Sulaimani, AUIS)工程系的助理教授。他於2016年在阿曼索哈爾大學獲得電機與計算機工程學士學位。2019年,阿里在馬來西亞國立大學(UKM)的可再生能源研究所(SERI)獲得可再生能源博士學位。他也是多本國際期刊的同行評審,並且是IEEE、WSSET、IAENG和ISES等國際組織的成員。
卡馬魯扎曼·索比安(Kamaruzzaman Sopian)於1985年在威斯康辛大學麥迪遜分校獲得機械工程學士學位,1989年在匹茲堡大學獲得能源資源碩士學位,1997年在邁阿密大學(University of Miami - Coral Gables)獲得機械工程博士學位。他目前是馬來西亞國立大學(Universiti Kebangsaan Malaysia)太陽能研究所(Solar Energy Research Institute, SERI)的教授及所長。
侯賽因·阿·卡澤姆(Hussein A Kazem)在伊拉克科技大學獲得電機工程學士及碩士學位,並在英國紐卡斯爾大學獲得博士學位。他目前是阿曼索哈爾大學工程學院的副教授,並在太陽能及可再生能源領域工作超過二十年。他的主要貢獻包括獨立及並網光伏系統、太陽輻射及系統建模、太陽熱水系統、太陽海水淡化、光伏熱能或混合集熱器及太陽/風混合系統。他曾在國內外可再生能源會議上發表主題演講,並獲得多項國內外獎項,完成多項國內外研究計畫。他是阿曼可再生能源與可持續技術研究小組的主席。
米克達姆·T·查伊欽(Miqdam T. Chaichan)是伊拉克科技大學能源與可再生能源技術中心的機械工程教授。他於1982年在巴格達大學工程學院獲得機械工程學士學位,並於1989年在巴格達科技大學獲得發電碩士學位。
