Ultrasonic dispersion in NO in the temperature range 423–500°K

Amme, Robert C.; Fanchi, John R.; Olson, John R.

doi:10.1063/1.1679043

Cited by 12 publications

(3 citation statements)

References 5 publications

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“…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…”

Section: Introductionmentioning

confidence: 99%

HyPIR Electrolysis for a 0.25 M Epsom Salt Solution

Fanchi

2021

AJR2P

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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.

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Section: Introductionmentioning

confidence: 99%

HyPIR Electrolysis for a 0.25 M Epsom Salt Solution

Fanchi

2021

AJR2P

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“…HP by electrolysis can be substantially increased by irradiating an electrolytic solution with light. Various light sources have been utilized including infrared [7][8][9][10][11], visible light [12,13] and UV light irradiation [14]. The HP by infrared electrolysis process demonstrates that the rate of HP by electrolysis can be substantially increased by irradiating an electrolytic solution with light at an optimized wavelength of 2940 nm.…”

Section: Introductionmentioning

confidence: 99%

Effect of green laser irradiation on hydrogen production

et al. 2014

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The effect of green laser irradiation on hydrogen production via water electrolysis was investigated. Diode pumped solid-state laser operating in second harmonic generation was employed as a source of irradiation. The hydrogen production system was also irradiated by a conventional light, a halogen source, for comparison. The best catalyst was identified by mixing distilled water with two types of salt: NaCl and Na2SO4. Optimization of hydrogen production from water electrolysis was realized by using NaCl and green laser irradiation. The power of green laser irradiation and the concentration of NaCl in water contribute to hydrogen production. The hydrogen yield also depends on the distance and direction of the green beam to the electrode.

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“…For example, Amme, Fanchi and Olson [3] experimentally studied energy transfer in gases, and Bass and Fanchi [4] experimentally determined the effect of laser radiation on a chemical reaction. More recent work using lasers to influence the dissociation of molecules is discussed by Rosenwaks [5].…”

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confidence: 98%