Hofer et al., 2017 - Google Patents
Heat transfer challenge and design evaluation for a multi-stage temperature swing adsorption processHofer et al., 2017
View PDF- Document ID
- 3211343119056452832
- Author
- Hofer G
- Fuchs J
- Schöny G
- Pröll T
- Publication year
- Publication venue
- Powder Technology
External Links
Snippet
Functionalized solid amine-based temperature swing adsorption (TSA) processes have recently been proposed as a potential way to reduce the energy-penalty of post-combustion carbon capture processes. Thereby, multi-stage fluidized bed contactors with immersed heat …
- 238000000034 method 0 title abstract description 17
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Hofer et al. | Heat transfer challenge and design evaluation for a multi-stage temperature swing adsorption process | |
| Wang et al. | CFD-DEM simulation of heat transfer in fluidized beds: Model verification, validation, and application | |
| Mori et al. | Validation study on a scaling law model of the DEM in industrial gas-solid flows | |
| Huilin et al. | Kinetic theory of fluidized binary granular mixtures | |
| Tenneti et al. | Role of fluid heating in dense gas–solid flow as revealed by particle-resolved direct numerical simulation | |
| Feng et al. | CFD modeling of gas–solid flow in an internally circulating fluidized bed | |
| Rickelt et al. | Coupled DEM/CFD simulation of heat transfer in a generic grate system agitated by bars | |
| Andreux et al. | Hydrodynamic and solid residence time distribution in a circulating fluidized bed: Experimental and 3D computational study | |
| Feng et al. | Experimental study of gas–solid overall heat transfer coefficient in vertical tank for sinter waste heat recovery | |
| Santos et al. | Three‐dimensional computational fluid dynamics modelling of spouted bed | |
| Lechner et al. | Heat-transfer from horizontal tube bundles into fluidized beds with Geldart A lignite particles | |
| Liu et al. | Simulation of gas–solid flow characteristics in a circulating fluidized bed based on a computational particle fluid dynamics model | |
| Gosavi et al. | CFD modeling to determine the minimum fluidization velocity of particles in gas-solid fluidized bed at different temperatures | |
| Ehsani et al. | The effect of particle properties on the heat transfer characteristics of a liquid–solid fluidized bed heat exchanger | |
| Takkinen et al. | Heat and mass transfer in calcination of limestone particles | |
| Pešić et al. | Heat transfer between a packed bed and a larger immersed spherical particle | |
| Zhang et al. | Numerical investigation of the air-particles heat transfer characteristics of moving bed-effect of particle size distribution | |
| Mandal et al. | Experimental measurement of effective thermal conductivity of packed lithium-titanate pebble bed | |
| Liu et al. | Quantifying lateral solids mixing in a fluidized bed by modeling the thermal tracing method | |
| Eder et al. | Wall-to-bed heat transfer in bubbling fluidized bed reactors with an immersed heat exchanger and continuous particle exchange | |
| Kang et al. | Insight into hydrodynamics and heat transfer characteristics in a gas–solid spout fluidized bed from a multiple zone view | |
| Pisters et al. | Investigations of axial and radial variations of heat transfer coefficient in bubbling fluidized bed with fast response probe | |
| Hoorijani et al. | CFD-DEM simulation of heat transfer in spout-fluid beds | |
| Wang et al. | Flow of a gas–solid two-phase mixture through a packed bed | |
| Moon et al. | Thermal-fluid characteristics on near wall of gas-solid fluidized bed reactor |