Başak Öztürk scite author profile

Artificial neural networks have emerged as a promising tool for estimating hydrogen production process variables for reaction condition optimization. Here we aim to predict complex nonlinear systems that use of artificial neural networks for modeling hydrogen production via water electrolysis and to evaluate the common challenges that arise. To estimate the effect of different electrolyzer systems input parameters such as electrolyte material, electrolyte type, supplied power (voltage and current), temperature, and time on hydrogen production, a predictive model was developed. The percentage contributions of the input parameters to hydrogen production and the best network architecture to minimize computation time and maximize network accuracy were shown. The results show that the hydrogen production parameters from electrolysis and the predicted safety explosive limit are 7% of the average root mean square error. Furthermore, coefficient of determination value was found 0.93. This predicted value is very close to the observed values. The neural network algorithm developed in this study could be used to make critical decisions in the electrolysis process for parameters affecting hydrogen production.

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A new approach to short-term wind speed prediction: the prophet model

Atasever

Öztürk

Bilgiç

2022

Energy Sources, Part A: Recovery, Utilization, and Environmenta

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Başak Öztürk

Recent advances in artificial neural network research for modeling hydrogen production processes

Prediction of hydrogen production by magnetic field effect water electrolysis using artificial neural network predictive models

Modeling of Artificial Neural Networks for Hydrogen Production via Water Electrolysis

A new approach to short-term wind speed prediction: the prophet model

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