Energy Generation Using Reverse Electrodialysis: Principles, Implementation, and Applications
暫譯: 反電滲透能量產生:原理、實施與應用
Kim, Daejoong, Kwon, Kilsung, Kim, Deok Han
- 出版商: Springer
- 出版日期: 2019-05-02
- 售價: $2,320
- 貴賓價: 9.5 折 $2,204
- 語言: 英文
- 頁數: 45
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 9811303134
- ISBN-13: 9789811303135
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商品描述
This book provides an introduction to the working principles of reverse electrodialysis and its practical application in the generation of electricity.
Salinity gradient energy (SGE) has received significant attention recently due to the energy crisis resulting from the depletion of fossil fuels and the growth in energy demand. There are currently three methods to convert SGE into electricity: pressure retarded osmosis (PRO), reverse electrodialysis (RED), and capacitive mixing (CAPMIX). This book covers the theory and implementation of reverse electrodialysis, which uses ion exchange membranes to selectively deliver cations or anions, and its advantages over other methods, such as high reliability without any moving parts, the direct energy conversion process from chemical energy to electrical energy, and its low fouling rate. All of these have made RED an attractive option, however, there are various challenges in the route to commercialization and these are also described.
The book summarizes the research progress and current status of RED, with a final chapter considering the outlook for the future of the technology at a commercial level.
商品描述(中文翻譯)
本書介紹了反向電滲透的工作原理及其在發電中的實際應用。
由於化石燃料的枯竭和能源需求的增長,鹽度梯度能量(Salinity Gradient Energy, SGE)最近受到廣泛關注。目前有三種方法可以將SGE轉換為電力:壓力延遲滲透(Pressure Retarded Osmosis, PRO)、反向電滲透(Reverse Electrodialysis, RED)和電容混合(Capacitive Mixing, CAPMIX)。本書涵蓋了反向電滲透的理論和實施,該方法使用離子交換膜選擇性地傳遞陽離子或陰離子,並且相較於其他方法具有多項優勢,例如高可靠性且無任何活動部件、從化學能到電能的直接能量轉換過程,以及低污垢率。所有這些特點使得RED成為一個具有吸引力的選擇,然而在商業化的過程中仍面臨各種挑戰,這些挑戰也在書中進行了描述。
本書總結了反向電滲透的研究進展和當前狀況,最後一章考慮了該技術在商業層面的未來展望。
作者簡介
Daejoong Kim received the PhD degree in mechanical engineering at Stanford University, Stanford, California, in 2007. Before that, he earned the BS and MS degrees in mechanical engineering at Seoul National University, Seoul, Korea, in 1999 and 2001, respectively. He was a postdoctoral research associate at the University of Illinois, Urbana-Champaign (UIUC). He is currently an associate professor at Sogang University in Department of Mechanical Engineering since 2008. He specializes in fluid mechanics and transport phenomena at micro- and nanoscale. His research includes micropumps, micromixers, micro power sources, reverse electrodialysis, seawater desalination, and molecular dynamics simulation. He served as a reviewer for many archived journals including Sensors and Actuators A: Physical and Microfluidics and Nanofluidics. He also served as a secretary general, a session organizer, or a session chair in many conferences sponsored by American Society of Mechanical Engineers (ASME) and Korean Society of Mechanical Engineers (KSME).
Kilsung Kwon received the MS and PhD degree in mechanical engineering at Sogang University in 2011 and 2015, respectively. Before that, he earned the BS degree at Seoul National University of Technology in 2009. He is currently a postdoctoral researcher at Korea Atomic Energy Research Institute since 2016. He specializes in mass/heat transport phenomena. His research includes micropump, fuel cell, reverse electrodialysis, and heat exchanger. He served as a peer-reviewer for Applied Thermal Engineering, Applied Energy and Energy and Conversion Management.
Deok Han Kim received M.S degree in Mechanical Engineering at Sogang University in South Korea in 2018. During his master study, he partly worked as a research intern in Soft matter, Fluidics and Interfaces group at University of Twente in Netherlands. He is currently working as a system engineering researcher at Hanwha defense systems. His research field was heat and mass transport phenomena in micro/nano scales, especially through membranes.
Longnan Li received PhD degree in Mechanical Engineering from Sogang University in 2017, He holds a Bachelor's degree in Water Supply and Sewerage Engineering from Northeast Petroleum University, China. He is currently a postdoctoral research associate at University of Illinois, Urbana-Champaign. He specializes in heat and mass transport phenomena in micro/nano scales. His research includes micro heat pipes, enhanced condensation/frosting on engineered surfaces, micro/nanofluidics and membrane process in seawater desalination.
作者簡介(中文翻譯)
金大鐘於2007年在美國加州史丹佛大學獲得機械工程博士學位。在此之前,他於1999年和2001年分別在韓國首爾國立大學獲得機械工程學士和碩士學位。他曾擔任伊利諾伊大學香檳分校(UIUC)的博士後研究助理。自2008年以來,他目前是西江大學機械工程系的副教授。他專注於微觀和納米尺度的流體力學和傳輸現象。他的研究包括微泵、微混合器、微型電源、反向電滲透、海水淡化和分子動力學模擬。他曾擔任多本期刊的審稿人,包括《Sensors and Actuators A: Physical》和《Microfluidics and Nanofluidics》。他還在美國機械工程師學會(ASME)和韓國機械工程師學會(KSME)贊助的多個會議中擔任秘書長、會議組織者或會議主席。
權吉成於2011年和2015年在西江大學獲得機械工程碩士和博士學位。在此之前,他於2009年在首爾科技大學獲得學士學位。他自2016年以來目前是韓國原子能研究所的博士後研究員。他專注於質量/熱量傳輸現象。他的研究包括微泵、燃料電池、反向電滲透和熱交換器。他曾擔任《Applied Thermal Engineering》、《Applied Energy》和《Energy and Conversion Management》的同行評審。
金德漢於2018年在韓國西江大學獲得機械工程碩士學位。在碩士學習期間,他曾在荷蘭特溫特大學的軟物質、流體學和界面小組擔任研究實習生。他目前在韓華防衛系統擔任系統工程研究員。他的研究領域是微/納米尺度的熱量和質量傳輸現象,特別是通過膜的傳輸。
李龍南於2017年在西江大學獲得機械工程博士學位。他擁有中國東北石油大學的供水和排水工程學士學位。他目前是伊利諾伊大學香檳分校的博士後研究助理。他專注於微/納米尺度的熱量和質量傳輸現象。他的研究包括微熱管、在工程表面上增強的冷凝/霜凍、微/納米流體學和海水淡化中的膜過程。
