On the Mathematical Modelling of a Moving-Bed Counter-Current Gasifier Fuelled with Wood-Pellets

On the Mathematical Modelling of a Moving-Bed Counter-Current Gasifier Fuelled with Wood-Pellets

The subject of this work is the mathematical modelling of a counter-current moving-bed gasifier fuelled by wood-pellets. Two versions of the model have been developed: the one-dimensional (1D) version-solving a set of Ordinary Differential Equations along the gasifier height-and the three-dimensiona...

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Main Authors: Andreas Schwabauer, Marco Mancini, Yunus Poyraz, Roman Weber
Format: Article
Language:English
Published: MDPI AG 2021-09-01
Series:Energies
Subjects:
CFD
gasification
wood-pellets
mathematical modelling
Online Access:https://www.mdpi.com/1996-1073/14/18/5840
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spelling doaj-97325478e5f14000a2f9ba8d912abf292021-09-26T00:05:30ZengMDPI AGEnergies1996-10732021-09-01145840584010.3390/en14185840On the Mathematical Modelling of a Moving-Bed Counter-Current Gasifier Fuelled with Wood-PelletsAndreas Schwabauer0Marco Mancini1Yunus Poyraz2Roman Weber3Institute of Energy Process Engineering and Fuel Technology, Clausthal University of Technology, Agricolastr 4, 38678 Clausthal-Zellerfeld, GermanyInstitute of Energy Process Engineering and Fuel Technology, Clausthal University of Technology, Agricolastr 4, 38678 Clausthal-Zellerfeld, GermanyInstitute of Energy Process Engineering and Fuel Technology, Clausthal University of Technology, Agricolastr 4, 38678 Clausthal-Zellerfeld, GermanyInstitute of Energy Process Engineering and Fuel Technology, Clausthal University of Technology, Agricolastr 4, 38678 Clausthal-Zellerfeld, GermanyThe subject of this work is the mathematical modelling of a counter-current moving-bed gasifier fuelled by wood-pellets. Two versions of the model have been developed: the one-dimensional (1D) version-solving a set of Ordinary Differential Equations along the gasifier height-and the three-dimensional (3D) version where the balanced equations are solved using Computational Fluid Dynamics. Unique procedures have been developed to provide unconditionally stable solutions and remove difficulties occurring by using conventional numerical methods for modelling counter-current reactors.The procedures reduce the uncertainties introduced by other mathematical approaches, and they open up the possibility of straightforward application to more complex software, including commercial CFD packages. Previous models of Hobbs et al., Di Blasi and Mandl et al. used a correction factor to tune calculated temperatures to measured values. In this work, the factor is not required. Using the 1D model, the Mandl et al. 16.6 kW gasifier was scaled to 9.5 MW input; the 89% cold-gas efficiency, observed at 16.6 kW input, decreases only slightly to 84% at the 9.5 MW scale.https://www.mdpi.com/1996-1073/14/18/5840CFDgasificationwood-pelletsmathematical modelling
collection DOAJ
language English
format Article
sources DOAJ
author Andreas Schwabauer
Marco Mancini
Yunus Poyraz
Roman Weber
spellingShingle Andreas Schwabauer
Marco Mancini
Yunus Poyraz
Roman Weber
On the Mathematical Modelling of a Moving-Bed Counter-Current Gasifier Fuelled with Wood-Pellets
Energies
CFD
gasification
wood-pellets
mathematical modelling
author_facet Andreas Schwabauer
Marco Mancini
Yunus Poyraz
Roman Weber
author_sort Andreas Schwabauer
title On the Mathematical Modelling of a Moving-Bed Counter-Current Gasifier Fuelled with Wood-Pellets
title_short On the Mathematical Modelling of a Moving-Bed Counter-Current Gasifier Fuelled with Wood-Pellets
title_full On the Mathematical Modelling of a Moving-Bed Counter-Current Gasifier Fuelled with Wood-Pellets
title_fullStr On the Mathematical Modelling of a Moving-Bed Counter-Current Gasifier Fuelled with Wood-Pellets
title_full_unstemmed On the Mathematical Modelling of a Moving-Bed Counter-Current Gasifier Fuelled with Wood-Pellets
title_sort on the mathematical modelling of a moving-bed counter-current gasifier fuelled with wood-pellets
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2021-09-01
description The subject of this work is the mathematical modelling of a counter-current moving-bed gasifier fuelled by wood-pellets. Two versions of the model have been developed: the one-dimensional (1D) version-solving a set of Ordinary Differential Equations along the gasifier height-and the three-dimensional (3D) version where the balanced equations are solved using Computational Fluid Dynamics. Unique procedures have been developed to provide unconditionally stable solutions and remove difficulties occurring by using conventional numerical methods for modelling counter-current reactors.The procedures reduce the uncertainties introduced by other mathematical approaches, and they open up the possibility of straightforward application to more complex software, including commercial CFD packages. Previous models of Hobbs et al., Di Blasi and Mandl et al. used a correction factor to tune calculated temperatures to measured values. In this work, the factor is not required. Using the 1D model, the Mandl et al. 16.6 kW gasifier was scaled to 9.5 MW input; the 89% cold-gas efficiency, observed at 16.6 kW input, decreases only slightly to 84% at the 9.5 MW scale.
topic CFD
gasification
wood-pellets
mathematical modelling
url https://www.mdpi.com/1996-1073/14/18/5840
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