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Asian Journal of Research and Reviews in Physics 4(2): 1-5, 2021; Article no.AJR2P.65706 ISSN: 2582-5992 HyPIR Electrolysis for a 0.25 M Epsom Salt Solution John R. Fanchi1* 1Department of Engineering, Texas Christian University, Fort Worth, Texas, USA. Author’s contribution The sole author designed, analysed, interpreted and prepared the manuscript. Short Communication ABSTRACT Article Information DOI: 10.9734/AJR2P/2021/v4i230137 Editor(s): (1) Dr. Jelena Purenovic, Kragujevac University, Serbia. Reviewers: (1) Arunachalam Lakshmanan, Saveetha Engineering College, India. (2) Mona Goudarzi, Sharif University of Technology, Iran. Complete Peer review History: http://www.sdiarticle4.com/review-history/65706 Received 14 December 2020 Accepted 18 February 2021 Published 05 March 2021 Previous laboratory work using a 0.12 M Epsom salt solution showed that HyPIR Electrolysis, or Hydrogen Production by Infrared Electrolysis, can increase the rate of hydrogen production from a solution of Epsom salt dissolved in water by irradiating the electrolyte with an optimum wavelength of light. This article presents data for a 0.25 M Epsom salt solution. A comparison of the data for different molarities shows that an increase in molarity of the electrolytic system decreases the rate of hydrogen production. Keywords: Hydrogen production; infrared laser; electrolysis; HyPIR electrolysis. 1. INTRODUCTION Widespread adoption of hydrogen as an energy carrier depends on our ability to supply hydrogen at a competitive price. A previous article described a process that increased hydrogen production rate by irradiating a 0.12 M Epsom salt-water electrolytic solution with light of an optimized wavelength [1,2] during electrolysis. The process was referred to as hydrogen production by infrared (HyPIR) electrolysis and is based on concepts reported in the literature [3,4,5]. Other electrolysis techniques include hydrogen production by green laser irradiation [6], hydrogen production by PEM electrolysis [7], hydrogen production by electrolysis powered by renewable energy [8], low temperature water electrolysis [9], alkaline water electrolysis in the presence of a magnetic field [10], and a solar-to hydrogen device based on earth-abundant _____________________________________________________________________________________________________ *Corresponding author: E-mail: goldenjrf@yahoo.com;PDF Image | HyPIR Electrolysis 25 M Epsom Salt Solution
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