Add to ORKGThe most important industrial method for the production of hydrogen is the catalytic steam reforming process. Many attempts have been made to improve heat transfer for thermally integrated microchannel steam reforming reactors. However, the mechanisms for the effects of design factors on heat transfer characteristics are still not fully understood. This study relates to a thermochemical process for producing hydrogen by the catalytic endothermic reaction of methanol with steam in a thermally integrated microchannel reforming reactor. Computational fluid dynamics simulations are conducted to better understand the consumption, generation, and exchange of thermal energy between endothermic and exothermic processes in the reactor. The effects o...
Steam methane reforming (SMR) is the most common commercial method of industrial hydrogen production...
A steady state multiphysics model of a microchannel methanol reformer for hydrogen production was de...
This paper proposes a novel design concept to enhance the methanol conversion rate in a single chann...
Thermally integrated microchannel reforming reactors have attracted considerable interest for a wide...
Many attempts have been made to improve heat transfer for thermally integrated microchannel reformin...
Many attempts have been made to improve heat transfer for thermally integrated microchannel reformin...
The present study is directed to the model development for a parallel reaction system, especially a ...
The aim of this study is to investigate glycerol steam reforming in a heat exchange integrated micro...
This paper addresses the issues related to the rapid production of hydrogen from methane steam refor...
Direct oxidation of fuels such as methanol in proton-exchange membrane fuel cells at practical curre...
Purpose: The purpose of this paper is to investigate the heat and mass transport characteristics in ...
This study investigates use of solar thermochemical processing of clean fuels using biomass products...
A tubular-quartz reactor (TQR) and a multichannel reactor (MCR) made of aluminium were employed for ...
The heat transfer effects on a methanol-steam reforming (MSR) process are numerically investigated u...
Steam methane reforming (SMR) is the most common commercial method of industrial hydrogen production...
Steam methane reforming (SMR) is the most common commercial method of industrial hydrogen production...
A steady state multiphysics model of a microchannel methanol reformer for hydrogen production was de...
This paper proposes a novel design concept to enhance the methanol conversion rate in a single chann...
Thermally integrated microchannel reforming reactors have attracted considerable interest for a wide...
Many attempts have been made to improve heat transfer for thermally integrated microchannel reformin...
Many attempts have been made to improve heat transfer for thermally integrated microchannel reformin...
The present study is directed to the model development for a parallel reaction system, especially a ...
The aim of this study is to investigate glycerol steam reforming in a heat exchange integrated micro...
This paper addresses the issues related to the rapid production of hydrogen from methane steam refor...
Direct oxidation of fuels such as methanol in proton-exchange membrane fuel cells at practical curre...
Purpose: The purpose of this paper is to investigate the heat and mass transport characteristics in ...
This study investigates use of solar thermochemical processing of clean fuels using biomass products...
A tubular-quartz reactor (TQR) and a multichannel reactor (MCR) made of aluminium were employed for ...
The heat transfer effects on a methanol-steam reforming (MSR) process are numerically investigated u...
Steam methane reforming (SMR) is the most common commercial method of industrial hydrogen production...
Steam methane reforming (SMR) is the most common commercial method of industrial hydrogen production...
A steady state multiphysics model of a microchannel methanol reformer for hydrogen production was de...
This paper proposes a novel design concept to enhance the methanol conversion rate in a single chann...