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Implementation of experimental techniques in ultrasound-driven hydrogen production: A comprehensive review

Moslem Sharifishourabi, İbrahim Dinçer, Atef Mohany

2024International Journal of Hydrogen Energy36 citationsDOIOpen Access PDF

Abstract

This comprehensive review delves into the utilization of ultrasound for hydrogen generation, emphasizing the key mechanisms and techniques involved. One of the focal points of the study is the exploration of the generation and detection of cavitation bubbles, which are induced by ultrasound waves. An in-depth overview of various experimental setups that employ ultrasound technology for hydrogen production is also provided. A comparative analysis of these setups reveals differences in crucial parameters such as acoustic intensity, liquid temperature, and frequency. These are the key parameters identified as significant determinants affecting the hydrogen yield and efficiency. This review paper also highlights the potential applications of sonohydrogen as a viable energy resource. While challenges such as the high costs of ultrasound equipment and the need for efficient catalysts exist, the inherent benefits make sonohydrogen a compelling subject for future research and development. The study shows that there is no one-size-fits-all approach, accentuating the importance of understanding these parameters for optimizing the process of hydrogen production. Although the technology is primarily in the experimental phase, existing research indicates that the sonohydrogen production holds considerable potential for large-scale applications.

Topics & Concepts

Hydrogen productionProduction (economics)UltrasoundComputer scienceHydrogenChemistryPhysicsAcousticsEconomicsMacroeconomicsOrganic chemistryUltrasound and Cavitation PhenomenaIndustrial Gas Emission ControlHybrid Renewable Energy Systems
Implementation of experimental techniques in ultrasound-driven hydrogen production: A comprehensive review | Litcius