One of the main challenges facing power generation by fuel cells involves the difficulties
related to hydrogen storage. Several methods have been suggested and studied by …

Methanol steam reforming manifests great potential for generating hydrogen owing to its
lower reaction temperature (200–300° C) and higher hydrogen/carbon ratio comparing with …

A novel design has been developed to optimize the performance of the methanol steam
reforming (MSR) system by integration with a CO 2 heat pump (HP) and a cryogenic …

The integration of photovoltaic (PV) water electrolysis and medium-temperature
thermochemical reactions with nanofluid filters presents a promising prospect for efficiently …

The oil and gas sector is not only a major energy producer but also a major consumer of
energy. Energy requirements in the form of heat, power, or shaft work during …

Abstract The commonly used CuO/ZnO catalysts are prone to show unsatisfying
performance at higher temperatures for hydrogen generation through methanol steam …

The synergy of hybrid conversion and non-imaging optical concentrating technology is a
promising solar energy utilization scheme. In this paper, a novel photovoltaic …

Hydrogen is one of the most clean energy carrier and the best alternative for fossil fuels. In
this study, thermodynamic analysis of modified Organic Rankine Cycle (ORC) integrated …

A baffled-type thermochemical reactor (BTR) for high-efficient hydrogen production by
methanol steam reforming (MSR) based on the novel concept of methanol-based solar …

In this paper, a novel parabolic trough solar receiver-reactor is proposed for continuous and
efficient hydrogen production via the methanol-steam reforming reaction. With a concentric …