Hydrogen has become a versatile and clean alternative to meet increasingly urgent energy
demands since its high heating value and renewability. However, considering the hazards of …

As a kind of versatile, excellent catalyst carriers, mesoporous silicas (mSiO 2) have been
widely applied for preparing various supported catalysts with ideal catalytic properties due to …

A methanol steam reforming-based microreactor is an extraordinary setup for hydrogen
supply; nevertheless, the heat transfer capability and flow resistance of the microreactor may …

In this paper, a numerical analysis of the production of hydrogen via autothermal (ATR)
steam methane reforming (SMR) is presented. The combustion reaction occurs over a Pt/Al …

To investigate the impact of carbon capture, utilization & storage (CCUS) on thermal power
plants' flexibility and economic performance and provide feasible solutions, an analysis was …

Thermal coupling of endothermic and exothermic reactions is an important pathway for
integrated thermal management within a methanol steam reforming reactor heated by …

In this study a numerical analysis of hydrogen production via an autothermal reforming
reactor is presented. The endothermic reaction of steam methane reforming and the …

The thickness of catalyst layer (CL) determines the electrochemical performance and the
cost of high temperature proton exchange membrane fuel cell (HT-PEMFC). However …

This study focused on evaluating different support materials made of silicon (Si) and
aluminum (Al) for improving the properties of catalysts and their ability to produce high-purity …

Methanol is regarded as an important liquid fuel for hydrogen storage, transportation, and in-
situ generation due to its convenient conveyance, high energy density, and low conversion …