CFD modeling of presurized entrained flow biomass gasification (PEBG) : design simulation of the oxygen register in a pilot reactor

Biomass is considered to be one of the most promising renewable energy sources in the future. Due to stringent policy on emission reduction, biomass has become a centre of attention worldwide as a source of green energy, e.g. motor fuel. This thesis work has been carried out in order to perform comp...

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Bibliographic Details
Main Author: Lemma Gebrewold, Desta
Format: Bachelor Thesis
Language:English
Published: 2010
Subjects:
Technology
CFD modeling
Biomass gasification
Oxygen register
Oxygen
attack angle
swirl angle
Teknik
Piteå
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-59358
Description
Summary:Biomass is considered to be one of the most promising renewable energy sources in the future. Due to stringent policy on emission reduction, biomass has become a centre of attention worldwide as a source of green energy, e.g. motor fuel. This thesis work has been carried out in order to perform computer simulation of the Pressurized Entrained flow Biomass Gasification (PEBG) process developed at Energy Technology Centre (ETC) in Piteå, Sweden. For an efficient and economically feasible conversion of biomass particles to a high quality synthesis gas, the thermo-chemical conversion process based on entrained flow gasification has to be investigated and evaluated thoroughly. Computational fluid dynamics (CFD) has become a well known aiding tool in these regards as to characterize the conversion process, optimize the design, visualize the flow fields in the reacting flow environment, and to improve the operating efficiency as a whole. With this background, the commercial code Ansys-CFX has been used to perform CFD simulations of the PEBG reactor being developed at ETC and evaluate different designs of the oxygen register in the burner. In this thesis work, 2D calculations of the reacting multiphase-flow (Euler- Lagrangian approach) have been performed in an axi-symmetric PEBG reactor using boundary condition with rotational periodicity. The gas phase reactions in this work have been modelled by the combined EDM/FRC combustion model. And the most important multiphase reactions, such as devolatilization and char gasification with carbon dioxide and steam, have been implemented. Inert gas flow simulations have been performed for the purpose of grid convergence study. However, the outcome of this part of the work has not been satisfying. Due to difficulties with controlling the unstructured mesh refinements for the different length scales in the reactor geometry with very small oxygen inlets in the burner, no formal error estimation was conducted. However, a number of simulations have been performed with the implemented ...

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