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A CFD study of biomass pyrolysis in a downer reactor equipped with a novel gas-solid separator - I: hydrodynamic performance

A CFD study of biomass pyrolysis in a downer reactor equipped with a novel gas-solid separator - I: hydrodynamic performance
A CFD study of biomass pyrolysis in a downer reactor equipped with a novel gas-solid separator - I: hydrodynamic performance

This study presents the first part of a CFD study on the performance of a downer reactor for biomass pyrolysis. The reactor was equipped with a novel gas-solid separation method, developed by the co-authors from the ICFAR (Canada). The separator, which was designed to allow for fast separation of clean pyrolysis gas, consisted of a cone deflector and a gas exit pipe installed inside the downer reactor. A multi-fluid model (Eulerian-Eulerian) with constitutive relations adopted from the kinetic theory of granular flow was used to simulate the multiphase flow. The effects of the various parameters including operation conditions, separator geometry and particle properties on the overall hydrodynamics and separation efficiency were investigated. The model prediction of the separator efficiency was compared with experimental measurements. The results revealed distinct hydrodynamic features around the cone separator, allowing for up to 100% separation efficiency. The developed model provided a platform for the second part of the study, where the biomass pyrolysis is simulated and the product quality as a function of operating conditions is analyzed. Crown

Biomass pyrolysis, CFD modeling, Downer reactor, Gas-solid separation, Hydrodynamics
0378-3820
366-382
Yu, Xi
7e4f553f-cc11-4c6e-ad6d-9fb5c3c07a60
Makkawi, Yassir
217bdad4-a83f-44a9-ab54-b52633298456
Ocone, Raffaella
89db17bd-1848-4c75-ac00-40b9c077b1a8
Huard, Martin
79e61192-5dac-4d3a-bb26-196cb127c893
Briens, Cedric
5f95952f-8b6c-4d5f-8913-00ab460f66d6
Berruti, Franco
482ac92d-5903-4d44-9ea5-172bd3989460
Yu, Xi
7e4f553f-cc11-4c6e-ad6d-9fb5c3c07a60
Makkawi, Yassir
217bdad4-a83f-44a9-ab54-b52633298456
Ocone, Raffaella
89db17bd-1848-4c75-ac00-40b9c077b1a8
Huard, Martin
79e61192-5dac-4d3a-bb26-196cb127c893
Briens, Cedric
5f95952f-8b6c-4d5f-8913-00ab460f66d6
Berruti, Franco
482ac92d-5903-4d44-9ea5-172bd3989460

Yu, Xi, Makkawi, Yassir, Ocone, Raffaella, Huard, Martin, Briens, Cedric and Berruti, Franco (2014) A CFD study of biomass pyrolysis in a downer reactor equipped with a novel gas-solid separator - I: hydrodynamic performance. Fuel Processing Technology, 126, 366-382. (doi:10.1016/j.fuproc.2014.05.020).

Record type: Article

Abstract

This study presents the first part of a CFD study on the performance of a downer reactor for biomass pyrolysis. The reactor was equipped with a novel gas-solid separation method, developed by the co-authors from the ICFAR (Canada). The separator, which was designed to allow for fast separation of clean pyrolysis gas, consisted of a cone deflector and a gas exit pipe installed inside the downer reactor. A multi-fluid model (Eulerian-Eulerian) with constitutive relations adopted from the kinetic theory of granular flow was used to simulate the multiphase flow. The effects of the various parameters including operation conditions, separator geometry and particle properties on the overall hydrodynamics and separation efficiency were investigated. The model prediction of the separator efficiency was compared with experimental measurements. The results revealed distinct hydrodynamic features around the cone separator, allowing for up to 100% separation efficiency. The developed model provided a platform for the second part of the study, where the biomass pyrolysis is simulated and the product quality as a function of operating conditions is analyzed. Crown

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More information

Published date: October 2014
Additional Information: Funding Information: The authors from the UK thank the Leverhulme Trust for a research grant ( RPG-410 ).
Keywords: Biomass pyrolysis, CFD modeling, Downer reactor, Gas-solid separation, Hydrodynamics

Identifiers

Local EPrints ID: 481487
URI: http://eprints.soton.ac.uk/id/eprint/481487
DOI: doi:10.1016/j.fuproc.2014.05.020
ISSN: 0378-3820
PURE UUID: 34ad1eaa-d18f-448a-bf3e-3ae044decb0d
ORCID for Xi Yu: ORCID iD orcid.org/0000-0003-3574-6032

Catalogue record

Date deposited: 30 Aug 2023 16:34
Last modified: 06 Jun 2024 02:19

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Contributors

Author: Xi Yu ORCID iD
Author: Yassir Makkawi
Author: Raffaella Ocone
Author: Martin Huard
Author: Cedric Briens
Author: Franco Berruti

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