Impact of tangential burner firing angle on combustion characteristics of large scale coal-fired boiler

Combustion characteristics in large scale boilers are influenced by a number of factors such as coal properties and burner operating conditions. Burner firing angle for example, will affect the fireball size and locations of heat release which affect the formation of ash slagging in a tangentially f...

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Main Authors: Razali N.M., Boosroh M.H., Hasini H., Shuaib N.H.
Other Authors: 36990261500
Format: Conference paper
Published: 2023
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spelling my.uniten.dspace-307912023-12-29T15:53:20Z Impact of tangential burner firing angle on combustion characteristics of large scale coal-fired boiler Razali N.M. Boosroh M.H. Hasini H. Shuaib N.H. 36990261500 6506812468 6507435998 13907934500 Coal-fired boiler Computational Fluid Dynamics (CFD) Firing angle Tangential burner Boiler firing Coal Coal industry Computational fluid dynamics Flow patterns Fluid dynamics Furnaces Multiphase flow Smoke Sustainable development Coal devolatilization Coal properties Combustion characteristics Combustion pro-cess Computational fluid dynamics simulations Fireball size Firing angle Flow profile Heat release Large scale boilers Low temperatures On flow Operating condition Particle tracking Radiation heat transfer Tangentially fired furnaces Tangentially-fired boilers Two phase flow model Coal combustion Combustion characteristics in large scale boilers are influenced by a number of factors such as coal properties and burner operating conditions. Burner firing angle for example, will affect the fireball size and locations of heat release which affect the formation of ash slagging in a tangentially fired furnace. In this study, a computational fluid dynamics (CFD) simulation of coal combustion in a tangentially fired 700 MW power plant was developed to investigate the impact of burner firing angles on the flame profile in the furnace. The model was developed based on the two-phase flow model, coal devolatilization, char burnout model, discrete particle tracking and radiation heat transfer. The firing angles were changed by �5� from the base angle of 43� and 55�. The study shows that firing angles have significant effect on the size of the flame fireball and the concentric fireball arrangement. Increasing the firing angle resulted in a larger fireball size with a region of low temperature at the core of the fireball. The simulation also shows that the flow profile becomes more stable with increasing firing angle, regardless of burner elevations. The results presented in this paper may enhance the understanding the complex relation between burner operating condition such as firing angle on flow patterns and combustion processes in a tangentially fired boilers. �2009 IEEE. Final 2023-12-29T07:53:20Z 2023-12-29T07:53:20Z 2009 Conference paper 10.1109/ICEENVIRON.2009.5398649 2-s2.0-77949624367 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77949624367&doi=10.1109%2fICEENVIRON.2009.5398649&partnerID=40&md5=325db752a313fc3fef8d67cef26855c6 https://irepository.uniten.edu.my/handle/123456789/30791 5398649 177 183 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Coal-fired boiler
Computational Fluid Dynamics (CFD)
Firing angle
Tangential burner
Boiler firing
Coal
Coal industry
Computational fluid dynamics
Flow patterns
Fluid dynamics
Furnaces
Multiphase flow
Smoke
Sustainable development
Coal devolatilization
Coal properties
Combustion characteristics
Combustion pro-cess
Computational fluid dynamics simulations
Fireball size
Firing angle
Flow profile
Heat release
Large scale boilers
Low temperatures
On flow
Operating condition
Particle tracking
Radiation heat transfer
Tangentially fired furnaces
Tangentially-fired boilers
Two phase flow model
Coal combustion
spellingShingle Coal-fired boiler
Computational Fluid Dynamics (CFD)
Firing angle
Tangential burner
Boiler firing
Coal
Coal industry
Computational fluid dynamics
Flow patterns
Fluid dynamics
Furnaces
Multiphase flow
Smoke
Sustainable development
Coal devolatilization
Coal properties
Combustion characteristics
Combustion pro-cess
Computational fluid dynamics simulations
Fireball size
Firing angle
Flow profile
Heat release
Large scale boilers
Low temperatures
On flow
Operating condition
Particle tracking
Radiation heat transfer
Tangentially fired furnaces
Tangentially-fired boilers
Two phase flow model
Coal combustion
Razali N.M.
Boosroh M.H.
Hasini H.
Shuaib N.H.
Impact of tangential burner firing angle on combustion characteristics of large scale coal-fired boiler
description Combustion characteristics in large scale boilers are influenced by a number of factors such as coal properties and burner operating conditions. Burner firing angle for example, will affect the fireball size and locations of heat release which affect the formation of ash slagging in a tangentially fired furnace. In this study, a computational fluid dynamics (CFD) simulation of coal combustion in a tangentially fired 700 MW power plant was developed to investigate the impact of burner firing angles on the flame profile in the furnace. The model was developed based on the two-phase flow model, coal devolatilization, char burnout model, discrete particle tracking and radiation heat transfer. The firing angles were changed by �5� from the base angle of 43� and 55�. The study shows that firing angles have significant effect on the size of the flame fireball and the concentric fireball arrangement. Increasing the firing angle resulted in a larger fireball size with a region of low temperature at the core of the fireball. The simulation also shows that the flow profile becomes more stable with increasing firing angle, regardless of burner elevations. The results presented in this paper may enhance the understanding the complex relation between burner operating condition such as firing angle on flow patterns and combustion processes in a tangentially fired boilers. �2009 IEEE.
author2 36990261500
author_facet 36990261500
Razali N.M.
Boosroh M.H.
Hasini H.
Shuaib N.H.
format Conference paper
author Razali N.M.
Boosroh M.H.
Hasini H.
Shuaib N.H.
author_sort Razali N.M.
title Impact of tangential burner firing angle on combustion characteristics of large scale coal-fired boiler
title_short Impact of tangential burner firing angle on combustion characteristics of large scale coal-fired boiler
title_full Impact of tangential burner firing angle on combustion characteristics of large scale coal-fired boiler
title_fullStr Impact of tangential burner firing angle on combustion characteristics of large scale coal-fired boiler
title_full_unstemmed Impact of tangential burner firing angle on combustion characteristics of large scale coal-fired boiler
title_sort impact of tangential burner firing angle on combustion characteristics of large scale coal-fired boiler
publishDate 2023
_version_ 1806424005611094016
score 13.222552