Chen, 2023 - Google Patents
Designs and operations of heat integrated reactors for thermochemically producing hydrogen from methanol by steam reformingChen, 2023
View PDF- Document ID
- 1030000229614562427
- Author
- Chen J
- Publication year
- Publication venue
- Authorea Preprints
External Links
Snippet
Endothermic reactions performed in microreactors are driven using heat from an external source. However, the temperature of the gas stream providing the heat is limited by constraints imposed by the materials of construction. The present study is focused primarily …
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US11305250B2 (en) | Catalytically heated fuel processor with replaceable structured supports bearing catalyst for fuel cell | |
| Park et al. | Development of microchannel methanol steam reformer | |
| Chen et al. | Methane steam reforming thermally coupled with catalytic combustion in catalytic microreactors for hydrogen production | |
| US7780944B2 (en) | Multi-stream microchannel device | |
| CA2862527C (en) | Heat integrated reformer with catalytic combustion for hydrogen production | |
| Baharudin et al. | Monolithic substrate support catalyst design considerations for steam methane reforming operation | |
| Engelbrecht et al. | A highly efficient autothermal microchannel reactor for ammonia decomposition: analysis of hydrogen production in transient and steady-state regimes | |
| Engelbrecht et al. | Microchannel reactor heat-exchangers: A review of design strategies for the effective thermal coupling of gas phase reactions | |
| US20070009426A1 (en) | Thermally coupled monolith reactor | |
| Zanfir et al. | Influence of flow arrangement in catalytic plate reactors for methane steam reforming | |
| JP2014144453A (en) | Microchannel reactor with temperature control | |
| Chen et al. | Efficient operation of autothermal microchannel reactors for the production of hydrogen by steam methane reforming | |
| Chen et al. | Thermal management of methanol reforming reactors for the portable production of hydrogen | |
| Wu et al. | Design, modeling, and optimization of a lightweight MeOH-to-H2 processor | |
| Hu et al. | Thermal matching characteristics in an autothermal methanol reforming microchannel reactor for hydrogen production | |
| Irankhah et al. | Performance research on a methane compact reformer integrated with catalytic combustion | |
| Kim et al. | Parametric study of microreactor design for water gas shift reactor using an integrated reaction and heat exchange model | |
| US9682357B2 (en) | Catalytic plate reactors | |
| Settar et al. | Numerical analysis of catalytic-coated walls of an indirect internal reforming solid oxide fuel cell: Influence of catalyst coating distribution on the reformer efficiency | |
| Chen | Designs and operations of heat integrated reactors for thermochemically producing hydrogen from methanol by steam reforming | |
| Schildhauer et al. | Reactor concept for improved heat integration in autothermal methanol reforming | |
| Mundhwa et al. | A comparative computational study of diesel steam reforming in a catalytic plate heat‐exchange reactor | |
| Yu et al. | Design and optimization of integrated ammonia decomposition catalytic microchannel reactors for COx-free hydrogen production | |
| Schouten et al. | Miniaturization of heterogeneous catalytic reactors: Prospects for new developments in catalysis and process engineering | |
| Chen et al. | Numerical modelling for design of microchannel reactors: Application to hydrogen production from methanol by steam reforming |