As climate change accelerates, finding clean alternatives to fossil fuels is more urgent than
ever. Therefore, green hydrogen has been introduced as a means of high-intensity energy …

Alkaline water electrolysis (AWE) is a relatively mature water electrolysis technology that
plays an important role in large-scale green hydrogen production and electrical energy …

Green hydrogen production via alkaline water electrolysis has the capability to greatly
reduce emissions of greenhouse gases and support the transition to a cleaner, more …

Alkaline electrolyzers are the most widespread technology due to their maturity, low cost,
and large capacity in generating hydrogen. However, compared to proton exchange …

Synthetic current density profiles with wind and photovoltaic power characteristics were
calculated by autoregressive-moving-average (ARMA) models for the experimental …

Improving the energy utilization efficiency of alkaline water electrolysis system (AWE) is one
of the urgent problems at this stage. This study explores the heat flow and energy …

This work aims to contribute to the efforts made from various disciplines to optimize the
hydrogen production from renewable energy sources. The problem is posed from the …

This study presents a comprehensive analysis of an Alkaline Water Electrolysis System
(AWES) for hydrogen production, focusing on thermal balance, operating conditions …

This review offers a thorough analysis of the currently available thermodynamic modeling of
alkaline electrolysis at various temperatures and pressures. To accomplish this review, a …

For a power-to-gas (PtG) system, methanation has attracted attention to synthesize methane
from carbon dioxide and hydrogen. There is a problem that heat generated by the reaction …