Sono-electrolysis performance based on indirect continuous sonication and membraneless alkaline electrolysis: Experiment, modelling and analysis

“…According to the obtained results and based on a calorimetric study [16], the characterisation of the sonication system demonstrated an acoustic efficiency of 13.7% when considering the delivered power of 60 W. This means that the remainder of the power consumed is dissipated as heat to the electrolyte and the surrounding environment.…”

“…As the propagation of the ultrasound waves within the electrolyte increases the electrolyte's temperature, an evaluation of the acoustic power transferred to the electrochemical cell was conducted. There, the power of the ultrasound transmitted to the electrolyte is calculated by means of equation below [16]:…”

Dynamic Response of a Sono-Electrolyzer under PV Supply for Hydrogen Production: A Modelling Approach for the Kinetic and Energetic Assessment under Northern Algerian Meteorological Conditions

“…According to the obtained results and based on a calorimetric study [16], the characterisation of the sonication system demonstrated an acoustic efficiency of 13.7% when considering the delivered power of 60 W. This means that the remainder of the power consumed is dissipated as heat to the electrolyte and the surrounding environment.…”

“…As the propagation of the ultrasound waves within the electrolyte increases the electrolyte's temperature, an evaluation of the acoustic power transferred to the electrochemical cell was conducted. There, the power of the ultrasound transmitted to the electrolyte is calculated by means of equation below [16]:…”

Dynamic Response of a Sono-Electrolyzer under PV Supply for Hydrogen Production: A Modelling Approach for the Kinetic and Energetic Assessment under Northern Algerian Meteorological Conditions

Thermodynamic modeling of alkaline water electrolyzer and assessment of reported cell voltages correlations at low temperature and atmospheric pressure: Critical review

Design and performance analysis of a PV-assisted alkaline electrolysis for hydrogen production: An experimental and theoretical study