Add to ORKGA novel co-flow heat exchanger intended for volumetrically efficient hydrogen production and utilizing catalytic surface combustion to drive endothermic steam reforming occurring in adjacent channels has been investigated experimentally and numerically. A single plate reactor has been developed for studying the complex interactions between H2 or CH4 combustion over a supported Pd catalyst and CH4 steam reforming over a supported Rh catalyst. Experiments have been conducted to determine a stable window of operation for the system and to observe the effects that inlet temperature, steam to carbon ratio, and reforming flow rates have on surface temperatures and reformate composition. The experiments have been used to validate a transient model...
This work reports on the experimental investigation of the performance of a microstructured catalyti...
Thermally integrated microchannel reforming reactors have attracted considerable interest for a wide...
The present study is directed to the model development for a parallel reaction system, especially a ...
A novel co-flow heat exchanger intended for volumetrically efficient hydrogen production and utilizi...
This paper addresses the issues related to the rapid production of hydrogen from methane steam refor...
Current technologies in chemical engineering focus on process intensification in order to remain cos...
Steam reforming performance in a coupled reactor that consists of a steam reformer and a catalytic c...
\u3cp\u3eBy means of steam reforming, natural gas is converted to carbon dioxide and hydrogen. The r...
The most important industrial method for the production of hydrogen is the catalytic steam reforming...
In this study, steam reforming of methane coupled with methane catalytic combustion in a catalytic p...
This contribution reports experimental studies of ethanol steam reforming for the production of a hy...
A catalytic flat plate fuel reformer offers better heat integration by combining the exothermic cata...
A tubular-quartz reactor (TQR) and a multichannel reactor (MCR) made of aluminium were employed for ...
This paper presents numerical study of co- and counter-flow arrangements for catalytic plate reactor...
In this paper, the heat-transfer characteristics of steam reforming in an annular reactor are presen...
This work reports on the experimental investigation of the performance of a microstructured catalyti...
Thermally integrated microchannel reforming reactors have attracted considerable interest for a wide...
The present study is directed to the model development for a parallel reaction system, especially a ...
A novel co-flow heat exchanger intended for volumetrically efficient hydrogen production and utilizi...
This paper addresses the issues related to the rapid production of hydrogen from methane steam refor...
Current technologies in chemical engineering focus on process intensification in order to remain cos...
Steam reforming performance in a coupled reactor that consists of a steam reformer and a catalytic c...
\u3cp\u3eBy means of steam reforming, natural gas is converted to carbon dioxide and hydrogen. The r...
The most important industrial method for the production of hydrogen is the catalytic steam reforming...
In this study, steam reforming of methane coupled with methane catalytic combustion in a catalytic p...
This contribution reports experimental studies of ethanol steam reforming for the production of a hy...
A catalytic flat plate fuel reformer offers better heat integration by combining the exothermic cata...
A tubular-quartz reactor (TQR) and a multichannel reactor (MCR) made of aluminium were employed for ...
This paper presents numerical study of co- and counter-flow arrangements for catalytic plate reactor...
In this paper, the heat-transfer characteristics of steam reforming in an annular reactor are presen...
This work reports on the experimental investigation of the performance of a microstructured catalyti...
Thermally integrated microchannel reforming reactors have attracted considerable interest for a wide...
The present study is directed to the model development for a parallel reaction system, especially a ...