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Combustion Science and Technology Volume 139, 1998 - Issue 1
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Original Articles

Development of a Lean Premixed Low-Swirl Burner for Low NOx Practical Applications

D.T. YEGIAN Environmental Energy Technologies Division, Ernest Orlando Lawrence Berkeley National Laboratory, Berkeley, CA, 94720
&
R.K. CHENG Environmental Energy Technologies Division, Ernest Orlando Lawrence Berkeley National Laboratory, Berkeley, CA, 94720
Pages 207-227 | Received 15 Dec 1997, Accepted 26 Aug 1998, Published online: 06 Apr 2007

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Mohammad Shahsavari, Mohammad Farshchi, Mohammad Hossein Arabnejad & Bing Wang. (2023) The Role of Flame–flow Interactions on Lean Premixed Lifted Flame Stabilization in a Low Swirl Flow. Combustion Science and Technology 195:5, pages 897-922.
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Mahmoud M.A. Ahmed & Madjid Birouk. (2021) Mixing Tube Length Effect on the Stability of Confined Swirling Partially Premixed Methane Flames off a Concentric Flow Conical Nozzle Burner. Combustion Science and Technology 193:16, pages 2833-2855.
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CLAYTONS. COOPER∗ & NORMANDM. LAURENDEAU. (2000) In-Situ Calibration Technique for Laser-Induced Fluorescence Measurements of Nitric Oxide in High-Pressure, Direct-Injection, Swirling Spray Flames. Combustion Science and Technology 161:1, pages 165-189.
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Kranthi Yellugari, Rodrigo Villalva Gomez & Ephraim Gutmark. Effects of Swirl Number and Central Rod on Flow in a Lean Premixed Swirl Combustor. Combustion Science and Technology 0:0, pages 1-29.
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Articles from other publishers (46)

Muhammad Saqib Akhtar, Mohammad Shahsavari, Anupam Ghosh, Bing Wang, Zahid Hussain & Zhuming Rao. (2023) Effect of fuel reactivity on flame properties of a low-swirl burner. Experimental Thermal and Fluid Science 142, pages 110795.
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Zhibo Cao, Yinli Xiao, Xin Ming & Wenyan Song. (2021) Research on the flame structure characteristics and NO x pathways of low swirl combustion . Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering 236:3, pages 527-540.
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Fujun Sun, Jianqin Suo & Zhenxia Liu. (2022) Effect of the swirl intensity on the non-reacting flowfields and fuel-air premixing characteristics for lean premixed combustors. Journal of Mechanical Science and Technology 36:1, pages 433-444.
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Milad Behzadi, Seyed Hamzeh Siyadat, Fathollah Ommi & Zoheir Saboohi. (2021) Study of the effect of bluff body size on stability limits of a premixed natural gas swirl burner. Journal of Thermal Analysis and Calorimetry 147:2, pages 1583-1596.
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Qiang An, Sina Kheirkhah, Jeffrey Bergthorson, Sean Yun, Jeongjae Hwang, Won June Lee, Min Kuk Kim, Ju Hyeong Cho, Han Seok Kim & Patrizio Vena. (2021) Flame stabilization mechanisms and shape transitions in a 3D printed, hydrogen enriched, methane/air low-swirl burner. International Journal of Hydrogen Energy 46:27, pages 14764-14779.
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. 2020. Stabilization and Dynamic of Premixed Swirling Flames. Stabilization and Dynamic of Premixed Swirling Flames 345 367 .
Paul Palies. 2020. Stabilization and Dynamic of Premixed Swirling Flames. Stabilization and Dynamic of Premixed Swirling Flames 57 103 .
M. Shahsavari, M. Farshchi, S. R. Chakravarthy, A. Chakraborty, I. B. Aravind & B. Wang. (2019) Low swirl premixed methane-air flame dynamics under acoustic excitations. Physics of Fluids 31:9.
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Paul P. PaliesRagini AcharyaAndreas Hoffie. (2019) Design and Challenges of Lean Fully Premixed Injectors for Gas Turbine Engines. Design and Challenges of Lean Fully Premixed Injectors for Gas Turbine Engines.
D. K. Sharaborin, D. M. Markovich & V. M. Dulin. (2018) Spatial Structure of a Reacting Turbulent Swirling Jet Flow with Combustion of a Propane–Air Mixture. Combustion, Explosion, and Shock Waves 54:3, pages 294-300.
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D K Sharaborin, V M Dulin & D M Markovich. (2018) Structure of a swirling jet with vortex breakdown and combustion. Journal of Physics: Conference Series 980, pages 012032.
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Mohammad Shahsavari & Mohammad Farshchi. (2017) Large Eddy Simulation of Low Swirl Flames Under External Flow Excitations. Flow, Turbulence and Combustion 100:1, pages 249-269.
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Mohammad Shahsavari, Mohammad Farshchi & Mohammad Hossien Arabnejad. (2016) Large Eddy Simulations of Unconfined Non-reacting and Reacting Turbulent Low Swirl Jets. Flow, Turbulence and Combustion 98:3, pages 817-840.
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Yangbo Deng, Hongwei Wu & Fengmin Su. (2017) Combustion and exhaust emission characteristics of low swirl injector. Applied Thermal Engineering 110, pages 171-180.
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R.F. Huang, L.M. Duc & C.M. Hsu. (2016) Flow and mixing characteristics of swirling double-concentric jets influenced by a control disc at low central jet Reynolds numbers. International Journal of Heat and Fluid Flow 62, pages 233-246.
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G. D. ten Thij, A. A. Verbeek & T. H. van der Meer. (2015) Application of Fractal Grids in Industrial Low-Swirl Combustion. Flow, Turbulence and Combustion 96:3, pages 801-818.
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R. Cheng & H. Levinsky. 2016. Lean Combustion. Lean Combustion 203 229 .
M. Emadi, K. Kaufman, M.W. Burkhalter, T. Salameh, T. Gentry & A. Ratner. (2015) Examination of thermo-acoustic instability in a low swirl burner. International Journal of Hydrogen Energy 40:39, pages 13594-13603.
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M.E. Feyz, J.A. Esfahani, I. Pishbin & S.M.R. Modarres Razavi. (2015) Effect of recess length on the flame parameters and combustion performance of a low swirl burner. Applied Thermal Engineering 89, pages 609-617.
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M.E. Feyz, S.I. Pishbin, M. Ghazikhani & S.M.R. Modarres Razavi. (2015) Parametric assessment of a low-swirl burner using the exergy analysis. Energy 79, pages 117-126.
Crossref
Anton A. Verbeek, Thijs W.F.M. Bouten, Genie G.M. Stoffels, Bernard J. Geurts & Theo H. van der Meer. (2015) Fractal turbulence enhancing low-swirl combustion. Combustion and Flame 162:1, pages 129-143.
Crossref
A.R. Norwazan & M.N. Mohd Jaafar. (2014) Studies of isothermal swirling flows with different RANS models in unconfined burner. Studies of isothermal swirling flows with different RANS models in unconfined burner.
Zhuyin Ren, Hongtao Yang & Tianfeng Lu. (2014) Effects of small-scale turbulence on NOx formation in premixed flame fronts. Fuel 115, pages 241-247.
Crossref
Nojan Bagheri-Sadeghi, Mohammad Shahsavari & Mohammad Farshchi. (2013) Experimental Characterization of Response of Lean Premixed Low-Swirl Flames to Acoustic Excitations. International Journal of Spray and Combustion Dynamics 5:4, pages 309-328.
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Li Wei Duan, Yan Ji Hong, Di Ma & Yin Jun Yang. (2013) Streamer Corona Plasma Assisted Nonpremixed Flame Holding of a Propane Jet. Advanced Materials Research 631-632, pages 988-991.
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Graham E. Ballachey & Matthew R. Johnson. (2013) Prediction of blowoff in a fully controllable low-swirl burner burning alternative fuels: Effects of burner geometry, swirl, and fuel composition. Proceedings of the Combustion Institute 34:2, pages 3193-3201.
Crossref
T.S. Cheng, S.R. March, R.W. Pitz, J.A. Wehrmeyer & J.-Y. Chen. (2012) Laser raman measurements of temperature and species concentration in swirling lifted hydrogen jet diffusion flames. International Journal of Hydrogen Energy 37:9, pages 7900-7911.
Crossref
Li Wei Duan & Yan Ji Hong. (2011) Plasma Assisted Flame Holding of a Propane Jet. Applied Mechanics and Materials 138-139, pages 848-851.
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Peter A. Strakey & Gilles Eggenspieler. (2010) Development and Validation of a Thickened Flame Modeling Approach for Large Eddy Simulation of Premixed Combustion. Journal of Engineering for Gas Turbines and Power 132:7.
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Wookyung Kim, Hyungrok Do, M. Godfrey Mungal & Mark A. Cappelli. (2008) Optimal discharge placement in plasma-assisted combustion of a methane jet in cross flow. Combustion and Flame 153:4, pages 603-615.
Crossref
R. K. Cheng & D. Littlejohn. (2008) Laboratory Study of Premixed H2-Air and H2–N2-Air Flames in a Low-Swirl Injector for Ultralow Emissions Gas Turbines. Journal of Engineering for Gas Turbines and Power 130:3.
Crossref
R. K. Cheng, D. Littlejohn, W. A. Nazeer & K. O. Smith. (2008) Laboratory Studies of the Flow Field Characteristics of Low-Swirl Injectors for Adaptation to Fuel-Flexible Turbines. Journal of Engineering for Gas Turbines and Power 130:2.
Crossref
Sungmo Kang, Hoojoong Kim, Jeongwon Lee, Yongmo Kim, Jae-Hwa Chung & Dal-Hong Ahn. (2008) Stabilization and Combustion Processes of Turbulent Premixed Lifted Methane−Air Flames on Low-Swirl Burners. Energy & Fuels 22:2, pages 925-934.
Crossref
Robert K. Cheng & Howard Levinsky. 2008. Lean Combustion. Lean Combustion 161 V .
Daniel Sequera & Ajay Agrawal. (2007) Emissions and Acoustics Measurements in a Low-Swirl Burner. Emissions and Acoustics Measurements in a Low-Swirl Burner.
D. Littlejohn & R.K. Cheng. (2007) Fuel effects on a low-swirl injector for lean premixed gas turbines. Proceedings of the Combustion Institute 31:2, pages 3155-3162.
Crossref
M.R. Johnson, D. Littlejohn, W.A. Nazeer, K.O. Smith & R.K. Cheng. (2005) A comparison of the flowfields and emissions of high-swirl injectors and low-swirl injectors for lean premixed gas turbines. Proceedings of the Combustion Institute 30:2, pages 2867-2874.
Crossref
D. Bernier, F. Lacas & S. Candel. (2004) Instability Mechanisms in a Premixed Prevaporized Combustor. Journal of Propulsion and Power 20:4, pages 648-656.
Crossref
Yong Ki Jeong, Chung Hwan Jeon & Young June Chang. (2004) Effects of a swirling and recirculating flow on the combustion characteristics in non-premixed flat flames. KSME International Journal 18:3.
Crossref
. (2003) The Characteristics of the Flow and Combustion in a Turbulent Non-Premixed Flat Flame. Transactions of the Korean Society of Mechanical Engineers B 27:4, pages 447-457.
Crossref
Yong-Gi Jeong, Gyeong-Cheon Kim, Chung-Hwan Jeon & Yeong-Jun Jang. (2002) The Effect of Swirl Intensity on Flow and Combustion Characteristics of Flat Flame Burner. Transactions of the Korean Society of Mechanical Engineers B 26:2, pages 336-344.
Crossref
David Littlejohn, Adrian J. Majeski, Shaheen Tonse, Carlo Castaldini & Robert K. Cheng. (2002) Laboratory investigation of an ultralow NOx premixed combustion concept for industrial boilers. Proceedings of the Combustion Institute 29:1, pages 1115-1121.
Crossref
William A. Sirignano, Trinh K. Pham & Derek Dunn-Rankin. (2002) Miniature-scale liquid-fuel-film combustor. Proceedings of the Combustion Institute 29:1, pages 925-931.
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Clayton S. Cooper & Normand M. Laurendeau. (2000) Quantitative measurements of nitric oxide in high-pressure (2–5 atm), swirl-stabilized spray flames via laser-induced fluorescence. Combustion and Flame 123:1-2, pages 175-188.
Crossref
R.K. Cheng, D.T. Yegian, M.M. Miyasato, G.S. Samuelsen, C.E. Benson, R. Pellizzari & P. Loftus. (2000) Scaling and development of low-swirl burners for low-emission furnaces and boilers. Proceedings of the Combustion Institute 28:1, pages 1305-1313.
Crossref
Clayton S. Cooper & Normand M. Laurendeau. (2000) Parametric study of no production via quantitative laser-induced fluorescence in high-pressure, swirl-stabilized spray flames. Proceedings of the Combustion Institute 28:1, pages 287-293.
Crossref

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