參考文獻 |
[1] S.Dunn, “Hydrogen futures: toward a sustainable energy system,” International Journal of Hydrogen Energy, Vol.27,pp.235-264(2002).
[2] 台灣燃料電池資訊網http://www.tfci.org.tw/Fc/fc1-6.asp
[3] E.Zoulias, E.Varkaraki, N.Lymberopoulos, “A review on water electrolysis,”International Journalof Centre for renewable energy sources, Nicosia.
[4] P. Ridge, Hydrogen manufacture by electrolysis, thermal decomposition and unusual techniques,Noyes Data corporation, New Jersey, M. S. Casper(1987).
[5] C.A.Schug, “Operational characterisysics of high-pressure, high-efficiency, water-hydrogen-electrolysis,”International Journal of Hydrogen Energy, Vol.23, pp.1113-1120(1998).
[6] W.Kreuter and H.Homann, “Electrolysis: The important energy transformer in a world of sustainable energy,”International Journal of Hydrogen Energy, Vol.23, pp.661-666(1998).
[7] R. Mosdale and S. Srinivasan, “Analysis of performance and of water and thermal management in proton exchange membrane fuel cells,”ElectrochimicaActa, Vol.40, pp.413-421(1995).
[8] D.Lj. Stojić, M.P. Marčeta, S.P. Sovilj, and Š.S. Miljanić, “Hydrogen generation from water electrolysis – possibilities of energy saving,”InternationalJournal of Power Sources, Vol.118, pp.315-319(2003).
[9] N. Nagai, M. Takeuchi, T. Kimura, and T. Oka, “Existence of optimum space between electrodes on hydrogen production by water electrolysis,”International Journal of Power Sources, Vol.118, pp. 315-319(2003).
[10] S.Licht, B. Wang, S. Mukerji, T. Soga, M.Umno, and H. Tributsch, “Over 18% solar energy conversion to generation of hydrogen fuel; theory and experiment for efficient solar water splitting,”International Journal of hydrogen Energy, Vol.26, pp.653-659(2001).
[11] A. Pismenny, “Stray currentcorrosionofcarbonsteel, electroplated nickel, andelectroless nickel in an alkaline environment.”(2001)
[12] E. Barsoukov, J.R. Macdonald, “Impedance spectroscopy theory, experiment, and applications” Second Edition, Wiley interscience, pp.377-368,(2005)
[13] M.Keddam, J.-F. Lizee, C. pallotta, and H. J. Takenouti, “Electrochemical behavior of passive iron in acid,”Medium, J. Electrochem. Soc. 131, 2016-2024.(1984)
[14] F. Marangio, M. Santarelli, M. Cali, “Theoretical model and experimental analysis of a high pressure PEM water electrolyser for hydrogen production,” International Journal of Hydrogen Energy, Vol. 34, pp. 1143-1158.(2009)
[15] http://www.corrosion-doctors.org/Biographies/RitterBio.htm
[16] K. Mazloomi, N. B. Sulaiman and H. Moayedi, “Electrical efficiency of electrolytic hydrogen production”, International Journal of Electrochemical Science, Vol.7, pp.3314-3326(2012).
[17] 田中正三郎著;賴耿陽譯著,應用電化學,應用新科技-應用電化學,復漢出版社印行(1998)。
[18] 魚崎浩平,喜多英明同撰,黃忠良譯,基本電化學,復漢出版社(1983)。
[19] J. Koryta, W. Dvorak and L. Kavan, Principles of ElectrochemistrySecond Edition, John Wiley and Sons, New York(1993).
[20] 柯賢文,腐蝕及其防制,全華圖書股份有限公司(2012)。
[21] 張鉴清,電化學阻抗技術量測與電化學頻譜的數據處理,浙江大學(2008)。
[22] J. R. Macdonload and W. R. Kenan, Impedance spectroscopy, emphasizing solid materials and systems, Wiley, New York, 1987.
[23] 蘇怡文,微型質子交換膜燃料電池電化學阻抗頻譜法及循環伏安法量測與性能分析,國立中山大學機械與機電工程學系(2012)
[24] 陳佑任,鋅取代鑭鍶鈷鐵氧化物於固態氧化物燃料電池陰極之特性研究,國立台灣科技大學(2008)。
[25] E. Barsoukov and J.R. Macdonald 2005. Impedance spectroscopy, Theory experiment and applications.John Wiley & Sons, Inc.
[26] C.H. Hsu, F. Mansfeld, Corrosion 2001. 57(9),747.
[27] J.M. Gras and P.Spiteri, “Corrosion of stainless steels and nickel based alloys for alkaline water electrolysis,”International Journal of Hydrogen Energy, Vol. 18, pp. 561-566 (1993).
[28] 田福助,電化學基本原理與應用,五周出版社(2004)。
[29] C.M.A. Brett, “The application of electrochemical impedance techniques toaluminium corrosion in acidic chloride solution,”International Journal of applied electrochemistry, Vol.20, pp. 1000-1003(1990).
[30] 陳士堃編撰,高分子電解質燃料電池與半電池實驗。 |