Performa PEM Elektrolizer dengan Hotpress
Abstract
Energy becomes an important component for human survival because almost all activities of human life are highly dependent on the availability of sufficient energy. PEM electrolizer is an alternative to produce hydrogen as a renewable energy source. In this study aims to improve the performance of PEM electrolizer which has been operating for 5750 hours, with the MEA washing method using hot water and then conditioned using a hotpress device with a certain pressure and temperature. The conclusion is that the performance of PEM electrolizer will tend to increase with increasing hotpress pressure and will tend to decrease with increasing hotpress temperature.
Keywords
Full Text:
PDF (Bahasa Indonesia)References
Han B, Steen SM, Mo J, Zhang FY. Electrochemical performance modeling of a proton exchange membrane electrolyzer cell for hydrogen energy. Int J Hydrogen Energy. 2015; 40 (22): 7006–7016.
Kelly NA, Gibson TL, Cai M, Spearot JA. Ouwerkerk DB. Development of a renewable hydrogen economy: optimization of existing technologies. International Journal of Hydrogen Energy 2010; 35 : 892–899.
Meng N, Leung MKH, Leung DYC. Electrochemistry modeling of proton exchange membrane (PEM) water electrolysis for hydrogen production. WHEC: Lyon France. 16/13–16 June (2006).
Onda K, Kyakuno T, Hattori K, Ito K. Prediction of production power for high-pressure hydrogen by high-pressure water electrolysis. Journal of Power Sources 2004; 132 : 64-70.
PEM Electrolyzer. Wikipedia, 2020. https://en.wikipedia.org/wiki/Polymer_electrolyte_membrane_electrolysis (diakses 12 Maret 2020).
Siracusano S, Blasi A, Vincenzo B, Brunaccini G, Briguglio N, Alessandro S, Ornelas R, Eduardo T, Vincenzo A, Arico A. Optimization of components and assembling in a PEM electrolyzer stack. Int J Hydrogen Energy 2011; 36 (5) : 3333–3339.
Therdthiawong A, Manomayidthikarn P, Supaporn T, Investigation of membrane electrode assembly (MEA) hot-pressing parameters for proton exchange membrane fuel cell. Energy. 2007; 32 : 2401-2411.
Refbacks
- There are currently no refbacks.