CFD Investigation of Swirl-stabilized Flexi-fuel Burner Using Methane-air Mixture for Gas Turbines
(2011) International Society for Airbreathing Engines, ISAB 2011 1. p.160-172- Abstract
- Combustion modeling based on a
multi-step global reaction mechanism
[1] is applied to CFD
(Computational Fluid Dynamics) analysis
of a scaled swirl-stabilized
4th generation premixed DLE (Dry Low
Emission) burner for gas turbines.
The flexi-fuel burner consists of a
MAIN premixed flame, a premixed
PILOT flame and a confined RPL
(Rich Pilot Lean) flame. Both
steady-state RANS (Reynolds Averaged
Navier Stokes) and hybrid
URANS/LES (Unsteady RANS/Large Eddy
Simulation) results have been computed.
The results are compared
with high quality experimental data
in the form of emission data,... (More) - Combustion modeling based on a
multi-step global reaction mechanism
[1] is applied to CFD
(Computational Fluid Dynamics) analysis
of a scaled swirl-stabilized
4th generation premixed DLE (Dry Low
Emission) burner for gas turbines.
The flexi-fuel burner consists of a
MAIN premixed flame, a premixed
PILOT flame and a confined RPL
(Rich Pilot Lean) flame. Both
steady-state RANS (Reynolds Averaged
Navier Stokes) and hybrid
URANS/LES (Unsteady RANS/Large Eddy
Simulation) results have been computed.
The results are compared
with high quality experimental data
in the form of emission data, PIV
(Particle Image Velocimetry) data
and OH-PLIF (Planar Laser Induced
Fluorescence Imaging) from an
atmospheric burner test rig at Lund
University [2-3]. There is a good
agreement between the CFD
simulations and measurements of
emissions, velocity field and flame
visualization. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/3972260
- author
- Abou-Taouk, Abdallah ; Sigfrid, Ivan LU ; Whiddon, Ronald LU and Eriksson, Lars-Erik
- organization
- publishing date
- 2011
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- keywords
- CFD, Combustion, burner
- host publication
- Papers - American Institute of Aeronautics and Astronautics
- volume
- 1
- pages
- 160 - 172
- publisher
- ISABE
- conference name
- International Society for Airbreathing Engines, ISAB 2011
- conference location
- Gothenburg, Sweden
- conference dates
- 2011-09-12 - 2011-09-16
- ISBN
- 9781618391803
- language
- English
- LU publication?
- yes
- id
- 8cf54550-80a4-44e6-94b2-8dbe5788b763 (old id 3972260)
- date added to LUP
- 2016-04-04 10:15:53
- date last changed
- 2018-11-21 20:57:45
@inproceedings{8cf54550-80a4-44e6-94b2-8dbe5788b763, abstract = {{Combustion modeling based on a<br/><br> multi-step global reaction mechanism<br/><br> [1] is applied to CFD<br/><br> (Computational Fluid Dynamics) analysis<br/><br> of a scaled swirl-stabilized<br/><br> 4th generation premixed DLE (Dry Low<br/><br> Emission) burner for gas turbines.<br/><br> The flexi-fuel burner consists of a<br/><br> MAIN premixed flame, a premixed<br/><br> PILOT flame and a confined RPL<br/><br> (Rich Pilot Lean) flame. Both<br/><br> steady-state RANS (Reynolds Averaged<br/><br> Navier Stokes) and hybrid<br/><br> URANS/LES (Unsteady RANS/Large Eddy<br/><br> Simulation) results have been computed.<br/><br> The results are compared<br/><br> with high quality experimental data<br/><br> in the form of emission data, PIV<br/><br> (Particle Image Velocimetry) data<br/><br> and OH-PLIF (Planar Laser Induced<br/><br> Fluorescence Imaging) from an<br/><br> atmospheric burner test rig at Lund<br/><br> University [2-3]. There is a good<br/><br> agreement between the CFD<br/><br> simulations and measurements of<br/><br> emissions, velocity field and flame<br/><br> visualization.}}, author = {{Abou-Taouk, Abdallah and Sigfrid, Ivan and Whiddon, Ronald and Eriksson, Lars-Erik}}, booktitle = {{Papers - American Institute of Aeronautics and Astronautics}}, isbn = {{9781618391803}}, keywords = {{CFD; Combustion; burner}}, language = {{eng}}, pages = {{160--172}}, publisher = {{ISABE}}, title = {{CFD Investigation of Swirl-stabilized Flexi-fuel Burner Using Methane-air Mixture for Gas Turbines}}, volume = {{1}}, year = {{2011}}, }