![]() A., “A Comprehensive Review on PEM Water Electrolysis,” International Journal of Hydrogen Energy, Vol. and Torchio, M., “Experimental Analysis of the Effects of the Operating Variables on the Performance of a Single PEMFC,” Energy Conversion and Management, Vol. 1143–1158, 2009.ĬOMSOL Inc., “Mass Transport Analysis of a High Temperature PEM Fuel Cell,” (Accessed ) Marangio, F., Santarelli, M., and Cali, M., “Theoretical Model and Experimental Analysis of a High Pressure PEM Water Electrolyser for Hydrogen Production,” International Journal of Hydrogen Energy, Vol. M., Mo, J., and Zhang, F.-Y., “Electrochemical Performance Modeling of a Proton Exchange Membrane Electrolyzer Cell for Hydrogen Energy,” International Journal of Hydrogen Energy, Vol. Sone, Y., Masato, S., Tetsuya, Y., and Naoki, S., “Water Electrolysis to Produce the Dry Oxygen for the Human Activies under the Closed Environment,” The Electrochemical Society, Abstract No. H., and Leonida, A., “Applications and Development of High Pressure PEM Systems,” (Accessed ) ![]() Kwac, L.-K., Kim, H.-Y., Shin, H.-J., and Kim, H.-G., “Performance Analysis of Hydrogen Generator using Cathode Feeding Method,” Indian Journal of Science and Technology, Vol. and Lecoeuche, S., “Identification and Monitoring of a PEM Electrolyser based on Dynamical Modelling,” International Journal of Hydrogen Energy, Vol. Zhang, H., Su, S., Lin, G., and Chen, J., “Efficiency Calculation and Configuration Design of a PEM Electrolyzer System for Hydrogen Production,” International Journal of Electrochemical Science, Vol. The optimized design of titanium plate was validated with experimental study, which showed very good agreement with simulation results for current above 1A. The impact of operating temperature on the best optimum plate design indicated through simulation that the increase of operating temperature lead to the reduction of cell overpotential, and as the temperature rises, the voltage difference gets larger with the increase of current. The best suitable ratio between the holes and non-opening area was found to be approximately 2:1. Moreover, the more the holes are close to each other, the better is the cell performance. The results revealed that, at the same operating conditions the plate with square shape of holes could result in lower cell voltage than the circular shape. Depending on plate design, a numerical analysis of PEM electrolyzer cell was performed under stationary study, and the results were compared on polarization curve. For water feeding and electric collection, four holed titanium plates were designed with different shape of holes which are either circular or square for a chosen spacing. A polymer electrolyte membrane (PEM) water electrolysis, where the water is supplied to cathode, was presented in this study. ![]()
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