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NTIS 바로가기Korean chemical engineering research = 화학공학, v.59 no.1, 2021년, pp.1 - 5
오소형 (순천대학교 화학공학과) , 양진원 (순천대학교 화학공학과) , 추천호 ((주)ETIS) , 나일채 ((주)CNL Energy) , 박권필 (순천대학교 화학공학과)
The PEM(Proton Exchange Membrane)water electrolysis uses the same PEM electrolyte membrane as the PEM fuel cell and proceeds by the same reaction but the opposite direction. The PEM fuel cell has many methods of degradation analysis since many studies have been conducted on the degradation and durab...
Alexander, B. and Hartmut, S., "Current Status of Water Electrolysis for Energy Storage, Grid Balancing and Sector Coupling Via Power-to-gas and Power-to-liquids: A Review," Renew. Sustain. Energy Rev., 82, 2440-2454(2018).
Ju, H. K., Badwal, S. and Giddey, S., "Comprehensive Review of Carbon and Hydrocarbon Assisted Water Electrolysis for Hydrogen Production," Appl. Energy, 231(1), 502-533(2018).
Kumar, S. S. and Himabindu, V., "Hydrogen Production by PEM Water Electrolysis-A Review," Mater. Sci. for Energy Technol., 2(3), 442-454(2019).
Grigoriev, S. A., Millet, P. and Fateev, V. N., "Evaluation of Carbon-supported Pt and Pd Nanoparticles for the Hydrogen Evolution Reaction in PEM Water Electrolysers," J. Power Sources, 177(2), 281-285(2008).
Millet, P., Ngameni, R., Grigoriev, S. A., Mbemba, N., Brisset, F., Ranjbari, A. and Etievant, C., "PEM Water Electrolyzers: From Electrocatalysis to Stack Development," Int. J. Hydrogen Energy, 35(10), 5043-5052(2010).
Carmo, M., Fritz, D. L., Mergel, J. and Stolten, D., "A Comprehensive Review on PEM Water Electrolysis," Int. J. Hydrogen Energy., 38(12), 4901-4934(2013).
Kim, T. H., Lee, J. H., Cho, G. J. and Park, K. P., "Degradation of Nafion Membrane by Oxygen Radical," Korean Chem. Eng. Res., 44(6), 597-601(2006).
Lee, H., Kim, T. H., Sim, W. J., Kim, S. H., Ahn, B. K., Lim, T. W. and Park, K. P., "Pinhole Formation in PEMFC Membrane After Electrochemical Degradation and Wet/dry Cycling Test," Korean J. Chem. Eng., 28(2), 487-491(2011).
Oh, H. S., Nong, H. N., Reier, T., Bergmann, A., Gliech, M., Teschner, D. and Strasser, P., "Electrochemical Catalyst-Support Effects and Their Stabilizing Role for IrOx Nanoparticle Catalysts during the Oxygen Evolution Reaction," J. Am. Chem. Soc., 138(38), 12552-12563(2016).
Siracusano, S., Baglio, V., Dijk, N. Van., Merlo, L. and Arico, A. S., "Enhanced Performance and Durability of Low Catalyst Loading PEM Water Electrolyser Based on a Short-side Chain Perfluorosulfonic Ionomer," Appl. Energy, 192(15), 477-489(2017).
Collier, A., Wang, H., Yaun, X., Zhang, J. and Wilison, D. P., "Degradation of Polymer Electrolyte Membranes," Int. J. Hydrogen Energy, 31(13), 1838-1854(2006).
Rakousky, C., Reimer, U., Wippermann, K., Carmo, M., Lueke, W. and Stolten, D., "An Analysis of Degradation Phenomena in Polymer Electrolyte Membrane Water Electrolysis," J. Power Sources, 326(15), 120-128(2016).
Chandesris, M. V., Medeau, N., Guillet, S., Chelghoum, D., Thoby, F. and Fouda, O., "Membrane Degradation in PEM Water Electrolyzer: Numerical Modeling and Experimental Evidence of the Influence of Temperature and Current Density," Int. J. Hydrogen Energy., 40(3), 1353-1366(2015).
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