Three-dimensional simulation of flow and combustion for pulverised coal injection

Baoyu Guo; Paul Zulli; Harold Rogers; John G. Mathieson; Aibing Yu

doi:10.2355/isijinternational.45.1272

Three-dimensional simulation of flow and combustion for pulverised coal injection

Baoyu Guo
, Paul Zulli
, Harold Rogers
, John G. Mathieson
, Aibing Yu

School of Energy and Power Engineering

University of New South Wales
BlueScope
BHP Billiton

Research output: Contribution to journal › Article › peer-review

61 Scopus citations

Abstract

A three-dimensional numerical model of pulverised coal injection has been developed for simulating coal flow and combustion in the tuyere and raceway of a blast furnace. The model has been used to simulate previously reported combustion tests, which feature an inclined co-axial lance with an annular cooling gas. The predicted coal burnout agrees well with that measured for three coals with volatile contents and particle size ranging between 20.2-36.4% and particle sizes 1-200μm. Many important phenomena including flow asymmetry, recirculating flow and particle dispersion in the combustion chamber have been predicted. The current model can reproduce the experimental observations including the effects on burnout of coal flowrate and the introduction of methane for lance cooling.

Original language	English
Pages (from-to)	1272-1281
Number of pages	10
Journal	ISIJ International
Volume	45
Issue number	9
DOIs	https://doi.org/10.2355/isijinternational.45.1272
State	Published - 2005

Keywords

Blast furnace
Coal combustion
Numerical modelling
Pulverised coal injection

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10.2355/isijinternational.45.1272

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title = "Three-dimensional simulation of flow and combustion for pulverised coal injection",

abstract = "A three-dimensional numerical model of pulverised coal injection has been developed for simulating coal flow and combustion in the tuyere and raceway of a blast furnace. The model has been used to simulate previously reported combustion tests, which feature an inclined co-axial lance with an annular cooling gas. The predicted coal burnout agrees well with that measured for three coals with volatile contents and particle size ranging between 20.2-36.4\% and particle sizes 1-200μm. Many important phenomena including flow asymmetry, recirculating flow and particle dispersion in the combustion chamber have been predicted. The current model can reproduce the experimental observations including the effects on burnout of coal flowrate and the introduction of methane for lance cooling.",

keywords = "Blast furnace, Coal combustion, Numerical modelling, Pulverised coal injection",

author = "Baoyu Guo and Paul Zulli and Harold Rogers and Mathieson, \{John G.\} and Aibing Yu",

year = "2005",

doi = "10.2355/isijinternational.45.1272",

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journal = "ISIJ International",

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T1 - Three-dimensional simulation of flow and combustion for pulverised coal injection

AU - Guo, Baoyu

AU - Zulli, Paul

AU - Rogers, Harold

AU - Mathieson, John G.

AU - Yu, Aibing

PY - 2005

Y1 - 2005

N2 - A three-dimensional numerical model of pulverised coal injection has been developed for simulating coal flow and combustion in the tuyere and raceway of a blast furnace. The model has been used to simulate previously reported combustion tests, which feature an inclined co-axial lance with an annular cooling gas. The predicted coal burnout agrees well with that measured for three coals with volatile contents and particle size ranging between 20.2-36.4% and particle sizes 1-200μm. Many important phenomena including flow asymmetry, recirculating flow and particle dispersion in the combustion chamber have been predicted. The current model can reproduce the experimental observations including the effects on burnout of coal flowrate and the introduction of methane for lance cooling.

AB - A three-dimensional numerical model of pulverised coal injection has been developed for simulating coal flow and combustion in the tuyere and raceway of a blast furnace. The model has been used to simulate previously reported combustion tests, which feature an inclined co-axial lance with an annular cooling gas. The predicted coal burnout agrees well with that measured for three coals with volatile contents and particle size ranging between 20.2-36.4% and particle sizes 1-200μm. Many important phenomena including flow asymmetry, recirculating flow and particle dispersion in the combustion chamber have been predicted. The current model can reproduce the experimental observations including the effects on burnout of coal flowrate and the introduction of methane for lance cooling.

KW - Blast furnace

KW - Coal combustion

KW - Numerical modelling

KW - Pulverised coal injection

UR - https://www.scopus.com/pages/publications/27744508357

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DO - 10.2355/isijinternational.45.1272

M3 - 文章

AN - SCOPUS:27744508357

SN - 0915-1559

VL - 45

SP - 1272

EP - 1281

JO - ISIJ International

JF - ISIJ International

IS - 9

ER -

Three-dimensional simulation of flow and combustion for pulverised coal injection

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Keywords

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