Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen

Biswajit Mandal; Amalesh Sirkar; Abhra Shau; Parameswar De; Partha Sarathi Ray

Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen

Year 2012, Volume: 2 Issue: 1, 99 - 102, 01.03.2012

Biswajit Mandal Amalesh Sirkar Abhra Shau Parameswar De Partha Sarathi Ray

Abstract

Electrolytic production of hydrogen from water is gradually gaining its importance among the other conventional processes of hydrogen production in the context of renewable energy source utilization and environmentally clean technology. Worldwide research is being carried out to make the process cost effective. Apart from the different material of construction of electrodes, the geometry is also playing an important role in developing an energy efficient process for electrolytic production of hydrogen. However, no information is available in the literature on this aspect. The aim of this paper is to study the effect of geometry of electrodes on energy efficiency of water electrolysis and rate of hydrogen production. The experimental results using cylindrical electrodes showed the enhancement of the power efficiency of water electrolysis and the rate of production of hydrogen by 30% and 25%, respectively compared to the data obtained using plate type electrodes. Also, the power efficiency of the water electrolyzer was found to improve by 34% using pulsating DC instead of constant DC input.

Keywords

Hydrogen; power efficiency; electrode geometry; pulsating DC input

Year 2012, Volume: 2 Issue: 1, 99 - 102, 01.03.2012

Biswajit Mandal Amalesh Sirkar Abhra Shau Parameswar De Partha Sarathi Ray

Abstract

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Details

Primary Language	English
Journal Section	Articles
Authors	Biswajit Mandal This is me Amalesh Sirkar This is me Abhra Shau This is me Parameswar De This is me Partha Sarathi Ray This is me
Publication Date	March 1, 2012
Published in Issue	Year 2012 Volume: 2 Issue: 1

Cite

APA	Mandal, B., Sirkar, A., Shau, A., De, P., et al. (2012). Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen. International Journal Of Renewable Energy Research, 2(1), 99-102.
AMA	Mandal B, Sirkar A, Shau A, De P, Ray PS. Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen. International Journal Of Renewable Energy Research. March 2012;2(1):99-102.
Chicago	Mandal, Biswajit, Amalesh Sirkar, Abhra Shau, Parameswar De, and Partha Sarathi Ray. “Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen”. International Journal Of Renewable Energy Research 2, no. 1 (March 2012): 99-102.
EndNote	Mandal B, Sirkar A, Shau A, De P, Ray PS (March 1, 2012) Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen. International Journal Of Renewable Energy Research 2 1 99–102.
IEEE	B. Mandal, A. Sirkar, A. Shau, P. De, and P. S. Ray, “Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen”, International Journal Of Renewable Energy Research, vol. 2, no. 1, pp. 99–102, 2012.
ISNAD	Mandal, Biswajit et al. “Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen”. International Journal Of Renewable Energy Research 2/1 (March 2012), 99-102.
JAMA	Mandal B, Sirkar A, Shau A, De P, Ray PS. Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen. International Journal Of Renewable Energy Research. 2012;2:99–102.
MLA	Mandal, Biswajit et al. “Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen”. International Journal Of Renewable Energy Research, vol. 2, no. 1, 2012, pp. 99-102.
Vancouver	Mandal B, Sirkar A, Shau A, De P, Ray PS. Effects of Geometry of Electrodes and Pulsating DC Input on Water Splitting for Production of Hydrogen. International Journal Of Renewable Energy Research. 2012;2(1):99-102.