Simulation of highly loaded gas-solid two-phase flows by combining a cellular automata for the particles with a lattice Boltzmann flow solver

Zeiser T, Eitzinger J, Brenner G, Durst F (2003)


Publication Language: English

Publication Type: Journal article, Original article

Publication year: 2003

Journal

Publisher: World Scientific Publishing

Book Volume: 17

Pages Range: 201-204

Journal Issue: 1/2

DOI: 10.1142/S0217979203017333

Abstract

Chemical reactors with highly loaded gas-solid flows - such as one might find in fluidized beds and riser-downer systems - play an increasingly important role in chemical engineering. Experimental measurements and numerical simulations with standard techniques are rather limited due to the high volume fraction of the particulate solid phase. Therefore, in this paper a completely different simulation approach based on a cellular automata-like description of a simple particle-fluid micro-world is presented which can provide a new entry point for more reliable simulations.

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How to cite

APA:

Zeiser, T., Eitzinger, J., Brenner, G., & Durst, F. (2003). Simulation of highly loaded gas-solid two-phase flows by combining a cellular automata for the particles with a lattice Boltzmann flow solver. International Journal of Modern Physics B, 17(1/2), 201-204. https://dx.doi.org/10.1142/S0217979203017333

MLA:

Zeiser, Thomas, et al. "Simulation of highly loaded gas-solid two-phase flows by combining a cellular automata for the particles with a lattice Boltzmann flow solver." International Journal of Modern Physics B 17.1/2 (2003): 201-204.

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