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Volume 9 Issue 2
Yan, C., Lu, C., Fan, Y., Cao, R., & Liu, Y. (2011). Experiments and simulations of gas–solid flow in an airlift loop reactor. Particuology, 9(2), 130-138. https://doi.org/10.1016/j.partic.2009.10.006
Experiments and simulations of gas–solid flow in an airlift loop reactor
Chaoyu Yan, Chunxi Lu *, Yiping Fan, Rui Cao, Yansheng Liu
State Key Laboratory of Heavy Oil Processing, China University of Petroleum, Beijing 102249, China
10.1016/j.partic.2009.10.006
Volume 9, Issue 2,
April 2011,
Pages 130-138
Received 3 March 2009, Revised 25 September 2009, Accepted 10 October 2009, Available online 18 February 2011.
E-mail:
lcx725@yahoo.cn
Highlights
Abstract
The hydrodynamics in a gas–solid airlift loop reactor was investigated systematically using experimental measurements and CFD simulation. In the experiments, the time averaged parameters, such as solid fraction and particle velocity, were measured by optical fiber probe. In the simulation, the modified Gidaspow drag model accounting for the interparticles clustering was incorporated into the Eulerian–Eulerian CFD model with particulate-phase kinetic theory. Predicted values of solid fraction and particle velocity were compared with experimental results, validating the drag model and the simulation. The results show that the profiles of particle velocity and solid fraction are uniform in annulus. However, the core-annulus structure appears in other three regions (draft tube region, bottom region and particle diffluence region), which presents the similar heterogeneous feature of aggregative fluidization usually occurred in normal fluidized beds. Simulated profiles of particle residence time distribution indicate that the airlift loop reactor should be characterized by near perfect mixing.
Graphical abstract
Keywords
Airlift loop reactor; Hydrodynamics; Gas–solid two phases flow; CFD; Drag force model
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