In recent times, renewable energy sources have gained significant popularity because of the
dwindling reserves of fossil fuels and the significant environmental damage resulting from …

Nowadays, water electrolysis is widely recognized as a crucial step in the transition towards
a hydrogen-based economy. Several technologies are available for water electrolysis, and …

The expected extensive production of hydrogen through water electrolysis will generate a
substantial quantity of industrial waste heat. Waste heat recovery from electrolyzer facilities …

Optimized operation of wind/hydrogen systems can increase the system efficiency and
further reduce the hydrogen production cost. In this regard, extensive research has been …

Renewable solar energy-powered multi-generation systems have become cutting-edge
technology in the effort to decrease greenhouse gas emissions. This research introduces …

This study explores the economic feasibility of two leading electrolysis technologies—
alkaline electrolysis and proton exchange membrane electrolysis—in the context of rapid …

The use of energy in the built environment contributes to over one-third of the world's carbon
emissions. To reduce that effect, two primary solutions can be adopted, ie (i) renovation of …

The toluene (TOL)–methylcyclohexane (MCH) system is one of the viable solutions because
of its high stability and high hydrogen storage capacity (6.2%). However, the high volatilities …

Photovoltaic (PV)-powered alkaline electrolyzer system (PVPAES) is an advanced
technique to convert the off-grid and intermittent PV-based solar energy into storable and …

This study considered complementation of the different electrolyzers and designed a new
hydrogen production system coupling alkaline (ALK) electrolyzers and the proton exchange …