This paper is concerned with optimizing the fuel–air mixing processes that take place within the radial swirler slot of a dry low emission (DLE) combustion system. The aerodynamics of the flow within the slot is complex and this, together with the placement of the fuel holes with cross injection, controls the mixing of the fuel and air. Computational fluid dynamics (CFD) with the shear stress transport (SST) (k–) turbulence model was used for flow and mixing predictions within the radial swirler slot and for conducting a CFD-based design of experiments (DOE) optimization study, in which different parameters related to the fuel injection holes were varied. The optimization study was comprised of 25 orthogonal design configurations in the Taguchi L25 orthogonal array (OA). The test domain for the CFD, and its experimental validation, was a large-scale representation of a swirler slot from the Siemens proprietary DLE combustion system. The DOE study showed that the number of fuel holes, injection hole diameter, and interhole distance are the most influential parameters for determining optimal fuel mixing. Consequently, the optimized mixing configuration obtained from the above study was experimentally tested on an atmospheric test facility. The mixing patterns from experiments at various axial locations across the slot are in good agreement with the mixing predictions from the optimal CFD model. The optimized fuel injection design improved mixing compared with the baseline design by about 60%.
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Investigation of Flow Aerodynamics for Optimal Fuel Placement and Mixing in the Radial Swirler Slot of a Dry Low Emission Gas Turbine Combustion Chamber
Festus Eghe Agbonzikilo,
Festus Eghe Agbonzikilo
School of Engineering,
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: fagbonzikilo@lincoln.ac.uk
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: fagbonzikilo@lincoln.ac.uk
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Ieuan Owen,
Ieuan Owen
Professor
Mechanical Engineering,
School of Engineering,
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: iowen@lincoln.ac.uk
Mechanical Engineering,
School of Engineering,
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: iowen@lincoln.ac.uk
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Suresh Kumar Sadasivuni,
Suresh Kumar Sadasivuni
Siemens Industrial Turbomachinery Limited,
P.O. Box 1,
Lincoln LN5 7FD, UK
e-mail: suresh.sadasivuni@siemens.com
P.O. Box 1,
Lincoln LN5 7FD, UK
e-mail: suresh.sadasivuni@siemens.com
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Ronald A. Bickerton
Ronald A. Bickerton
Professor
Mechanical Engineering,
School of Engineering,
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: rbickerton@lincoln.ac.uk
Mechanical Engineering,
School of Engineering,
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: rbickerton@lincoln.ac.uk
Search for other works by this author on:
Festus Eghe Agbonzikilo
School of Engineering,
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: fagbonzikilo@lincoln.ac.uk
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: fagbonzikilo@lincoln.ac.uk
Ieuan Owen
Professor
Mechanical Engineering,
School of Engineering,
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: iowen@lincoln.ac.uk
Mechanical Engineering,
School of Engineering,
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: iowen@lincoln.ac.uk
Suresh Kumar Sadasivuni
Siemens Industrial Turbomachinery Limited,
P.O. Box 1,
Lincoln LN5 7FD, UK
e-mail: suresh.sadasivuni@siemens.com
P.O. Box 1,
Lincoln LN5 7FD, UK
e-mail: suresh.sadasivuni@siemens.com
Ronald A. Bickerton
Professor
Mechanical Engineering,
School of Engineering,
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: rbickerton@lincoln.ac.uk
Mechanical Engineering,
School of Engineering,
University of Lincoln,
Brayford Pool,
Lincoln LN6 7TS, UK
e-mail: rbickerton@lincoln.ac.uk
Contributed by the Combustion and Fuels Committee of ASME for publication in the JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER. Manuscript received July 13, 2015; final manuscript received August 31, 2015; published online November 3, 2015. Editor: David Wisler.
J. Eng. Gas Turbines Power. May 2016, 138(5): 051505 (13 pages)
Published Online: November 3, 2015
Article history
Received:
July 13, 2015
Revised:
August 31, 2015
Citation
Eghe Agbonzikilo, F., Owen, I., Kumar Sadasivuni, S., and Bickerton, R. A. (November 3, 2015). "Investigation of Flow Aerodynamics for Optimal Fuel Placement and Mixing in the Radial Swirler Slot of a Dry Low Emission Gas Turbine Combustion Chamber." ASME. J. Eng. Gas Turbines Power. May 2016; 138(5): 051505. https://doi.org/10.1115/1.4031529
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