Due to increasing environmental concerns, clean technology has become a key feature in industrial gas turbines. Swirler design is directly associated with the combustion performance for its roles in fuel distribution and flame stability. In this study, the development process of three new conceptual swirlers from Samsung Techwin is presented. Each swirler has unique features to enhance fuel-to-air mixing; Swirler 1 uses tangential air-bypass, Swirler 2 minimizes pressure loss using impeller-like design, and Swirler 3 has combined flow characteristics of axial and radial swirlers. Using extensive computational fluid dynamics (CFD) analysis, lead time and cost in manufacturing the prototypes were significantly reduced. The numerical methods were verified with a lab-scale combustion test; particle image velocimetry (PIV) measurement of cold flow, direct flame images, and OH planar laser induced fluorescence (PLIF) images were compared with result of large-eddy simulation (LES), and they showed good agreement. After design optimization using CFD, full-scale combustion tests were performed for all three swirlers. Flame from each swirler was visualized using a cylindrical quartz liner; direct images and OH chemiluminescence images of flames were obtained. Flame stability and blow-off limit at various air load were examined by gradually lowering the equivalence ratio. NOx and CO concentration were measured at the exhaust. All three swirlers satisfied low NOx and CO levels at the design conditions. The performance maps bounded by the NOx and CO limits and blow-off limit were obtained for all swirlers. Further efforts to maximize the combustors performance will be made.
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ASME Turbo Expo 2015: Turbine Technical Conference and Exposition
June 15–19, 2015
Montreal, Quebec, Canada
Conference Sponsors:
- International Gas Turbine Institute
ISBN:
978-0-7918-5668-0
PROCEEDINGS PAPER
Development of Low Emission Gas Turbine Combustors
Seung-chai Jung,
Seung-chai Jung
Samsung Techwin Co. Ltd., Seongnam, Korea
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Siwon Yang,
Siwon Yang
Samsung Techwin Co. Ltd., Seongnam, Korea
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Shaun Kim,
Shaun Kim
Samsung Techwin Co. Ltd., Seongnam, Korea
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Ik Soo Kim,
Ik Soo Kim
Samsung Techwin Co. Ltd., Seongnam, Korea
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Chul-ju Ahn,
Chul-ju Ahn
Samsung Techwin Co. Ltd., Seongnam, Korea
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Ju Hyeong Cho,
Ju Hyeong Cho
Korea Institute of Machinery and Materials, Daejun, Korea
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Jisu Yoon,
Jisu Yoon
Seoul National University, Seoul, Korea
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Youngbin Yoon,
Youngbin Yoon
Seoul National University, Seoul, Korea
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Samson Yoon,
Samson Yoon
Samsung Techwin Co. Ltd., Seongnam, Korea
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Shiyang Ryu
Shiyang Ryu
Samsung Techwin Co. Ltd., Seongnam, Korea
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Seung-chai Jung
Samsung Techwin Co. Ltd., Seongnam, Korea
Siwon Yang
Samsung Techwin Co. Ltd., Seongnam, Korea
Shaun Kim
Samsung Techwin Co. Ltd., Seongnam, Korea
Ik Soo Kim
Samsung Techwin Co. Ltd., Seongnam, Korea
Chul-ju Ahn
Samsung Techwin Co. Ltd., Seongnam, Korea
Ju Hyeong Cho
Korea Institute of Machinery and Materials, Daejun, Korea
Jisu Yoon
Seoul National University, Seoul, Korea
Youngbin Yoon
Seoul National University, Seoul, Korea
Samson Yoon
Samsung Techwin Co. Ltd., Seongnam, Korea
Shiyang Ryu
Samsung Techwin Co. Ltd., Seongnam, Korea
Paper No:
GT2015-42002, V04AT04A001; 10 pages
Published Online:
August 12, 2015
Citation
Jung, S, Yang, S, Kim, S, Kim, IS, Ahn, C, Cho, JH, Yoon, J, Yoon, Y, Yoon, S, & Ryu, S. "Development of Low Emission Gas Turbine Combustors." Proceedings of the ASME Turbo Expo 2015: Turbine Technical Conference and Exposition. Volume 4A: Combustion, Fuels and Emissions. Montreal, Quebec, Canada. June 15–19, 2015. V04AT04A001. ASME. https://doi.org/10.1115/GT2015-42002
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