Add to ORKGThe recent increase in the availability of natural gas from shale gas has led to growing interest in upgrading methane to higher value chemicals. Steam methane reforming is the most widely practiced process for converting methane to hydrogen/syngas and its derivatives. The process is however strongly limited by heat transfer between the furnace and the process gas. To limit the pressure drop, large pellets have to be used, introducing important intra-particle diffusion limitations. Structured catalytic reactors are promising for intensifying the process and deal with the limitations encountered in conventional reformers
The performance of dual-zone structured catalytic reactors in natural gas steam reforming under typi...
Compact reformers (CRs) are promising devices for efficient fuel processing. In CRs, a thin solid pl...
Mass, heat and momentum transport processes are coupled with catalytic chemical reactions in a metha...
Structured catalytic reactors have the potential to combine reduced pressure drop and improved heat ...
Even if steam methane reforming is an old an well developed process, some limitations are still enco...
The multi-scale modeling of ZoneFlowTM structured catalytic reactors for steam methane reforming is ...
The predominant technology for hydrogen-syngas generation over the years has been steam reforming of...
The ZoneFlow™ reactor is an annular structured reactor that offers lower pressure drop and significa...
Methane reforming is the most widely practiced process for the production of hydrogen and syngas. Th...
Modeling and scale-up of structured reactors and microreactors, Structured catalysts and reactors in...
The ZoneFlow reactor (Tribute Creations, LLC) is a tubular reactor with two types of internals: a co...
Methane bi-reforming has gained interest recently for its potential of converting CH4 and CO2 into c...
Steam methane reforming is a widely-used process to convert methane into syngas. A conventional stea...
The use of structured catalysts based on highly conductive carriers may allow a flattened radial tem...
Graduation date: 2010Numerical modeling of methane-steam reforming is performed in a micro/mini-chan...
The performance of dual-zone structured catalytic reactors in natural gas steam reforming under typi...
Compact reformers (CRs) are promising devices for efficient fuel processing. In CRs, a thin solid pl...
Mass, heat and momentum transport processes are coupled with catalytic chemical reactions in a metha...
Structured catalytic reactors have the potential to combine reduced pressure drop and improved heat ...
Even if steam methane reforming is an old an well developed process, some limitations are still enco...
The multi-scale modeling of ZoneFlowTM structured catalytic reactors for steam methane reforming is ...
The predominant technology for hydrogen-syngas generation over the years has been steam reforming of...
The ZoneFlow™ reactor is an annular structured reactor that offers lower pressure drop and significa...
Methane reforming is the most widely practiced process for the production of hydrogen and syngas. Th...
Modeling and scale-up of structured reactors and microreactors, Structured catalysts and reactors in...
The ZoneFlow reactor (Tribute Creations, LLC) is a tubular reactor with two types of internals: a co...
Methane bi-reforming has gained interest recently for its potential of converting CH4 and CO2 into c...
Steam methane reforming is a widely-used process to convert methane into syngas. A conventional stea...
The use of structured catalysts based on highly conductive carriers may allow a flattened radial tem...
Graduation date: 2010Numerical modeling of methane-steam reforming is performed in a micro/mini-chan...
The performance of dual-zone structured catalytic reactors in natural gas steam reforming under typi...
Compact reformers (CRs) are promising devices for efficient fuel processing. In CRs, a thin solid pl...
Mass, heat and momentum transport processes are coupled with catalytic chemical reactions in a metha...