Research Article
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Year 2022, Volume: 7 Issue: 2, 113 - 126, 29.12.2022
https://doi.org/10.58559/ijes.1169274

Abstract

Supporting Institution

Erciyes Üniversitesi BAP Birimi

Project Number

FYL-2022-11818

References

  • [1] Lundegard PD. Environmental Forensics – Contaminant Specific Guide / Methane. Academic Press 2005:97-110.
  • [2] Wang Y, Zhang X, Li Y. Numerical simulation of methane-hydrogen-air premixed combustion in turbulence, International Journal of Hydrogen Energy 2022. In press.
  • [3] Guessab A, Abdelkader A, Mansour C, Baki T. Combustion of Methane and Biogas Fuels in Gas Turbine Can-type Combustor Model, Journal of Applied Fluid Mechanics 2016; 9(5): 2229-2238.
  • [4] Liu X, Bertsch M, Subash AA, Yu S, Szasz RZ, Li Z, Petersson P, Bai XS, Alden M, Lörstad D. Investigation of turbulent premixed methane/air and hydrogen-enriched methane/air flames in a laboratory-scale gas turbine model combustor, International Journal of Hydrogen Energy 2021; 46(24): 13377-13388.
  • [5] Valera-Medina A, Marsh R, Runyon J, Pugh D, Beasley P, Hughes T, Bowen P. Ammonia–methane combustion in tangential swirl burners for gas turbine power generation, Applied Energy 2017; 185(2): 1362-1371.
  • [6] Chouraqui H, Dayma G, Ribert G, Halter F, Chauveau C, Dagaut P. Experimental and numerical studies of the diluent influence (N2, Ar, He, Xe) on stable premixed methane flames in micro- combustion, Proceedings of the Combustion Institute 2021; 38(4): 6753-6761.
  • [7] Yılmaz I, Cam Y, Alabas B. Effect of N2 dilution on combustion instabilities and emissions in biogas flame, Fuel 2022; 308: 121943.
  • [8] Tao C, Zhou H. Dilution effects of CO2, Ar, N2 and He microjets on the combustion dynamic and emission characteristics of unsteady premixed flame, Aerospace Science and Technology 2021; 111: 106537.
  • [9] Fan A, Xiang Y, Yang W, Li L. Enhancement of hydrogen combustion efficiency by helium dilution in a micro-combustor with wall cavities, Chemical Engineering and Processing – Process Intensification 2018; 130: 201-207.
  • [10] Kozubkova M, Kozubek E, Nevrly V, Bitala P, Stepanek O, Dlabka J, Vasinek M, Bojko M, Zelinger Z, Kubat P, Grigorova E. The Effect of Nitrogen and Argon Dilution on Methane Oxidation in Laminar Flames, Procedia Engineering 2012; 42: 1826-1839.
  • [11] Zhang J, Mi J, Li P, Wang F, Dally BB. Moderate or Intense Low-Oxygen Dilution Combustion of Methane Diluted by CO2 and N2, Energy&Fuels 2015: 29(7); 4576-4585.
  • [12] Mishra DP. Experimental combustion: an introduction. 1st ed. CRC Press; 2014.
  • [13] Wang M, Zhong Y, Deng K. Experiment investigation of the effects of hydrogen content on the combustion instability of methane/hydrogen lean premixed swirl flames under different acoustic frequency ranges, AIP Advances 2019; 9:4.
  • [14] House JE. Inorganic Chemistry / Chapter 15 - Chemistry of nonmetallic elements III. Groups VIA-VIIIA, Acedemic Press, 2020.

Effect of helium dilution on the dynamic stability of lean premixed methane flame in a model gas turbine combustor

Year 2022, Volume: 7 Issue: 2, 113 - 126, 29.12.2022
https://doi.org/10.58559/ijes.1169274

Abstract

Today, where clean, renewable and high efficiency energy production gains importance, methane gas draws attention due to its low carbon content. In this study, flame instability and temperature of methane gas were tested in a premixed model gas turbine combustor at different helium dilution conditions. The burner power was kept constant as 3 kW and the equivalence ratio as 0.7. In addition, a swirl generator with a swirl number of 1 is placed at the burner outlet. The dynamic pressure values of the flame were recorded under external acoustic enforcements at different frequencies applied to the flame and thermo-acoustic combustion instability was interpreted. Methane flame diluted with Helium at 10, 20, 30, 40 and 45 volumetric ratios showed the following results. If helium dilutions of up to 20% did not significantly affect flame instability, instability increased at 30% He. After this critical value, when 45% He dilution was tested, the lowest instability value was determined. In addition, the burner exit temperature of the flame decreased at all helium dilution ratios.

Project Number

FYL-2022-11818

References

  • [1] Lundegard PD. Environmental Forensics – Contaminant Specific Guide / Methane. Academic Press 2005:97-110.
  • [2] Wang Y, Zhang X, Li Y. Numerical simulation of methane-hydrogen-air premixed combustion in turbulence, International Journal of Hydrogen Energy 2022. In press.
  • [3] Guessab A, Abdelkader A, Mansour C, Baki T. Combustion of Methane and Biogas Fuels in Gas Turbine Can-type Combustor Model, Journal of Applied Fluid Mechanics 2016; 9(5): 2229-2238.
  • [4] Liu X, Bertsch M, Subash AA, Yu S, Szasz RZ, Li Z, Petersson P, Bai XS, Alden M, Lörstad D. Investigation of turbulent premixed methane/air and hydrogen-enriched methane/air flames in a laboratory-scale gas turbine model combustor, International Journal of Hydrogen Energy 2021; 46(24): 13377-13388.
  • [5] Valera-Medina A, Marsh R, Runyon J, Pugh D, Beasley P, Hughes T, Bowen P. Ammonia–methane combustion in tangential swirl burners for gas turbine power generation, Applied Energy 2017; 185(2): 1362-1371.
  • [6] Chouraqui H, Dayma G, Ribert G, Halter F, Chauveau C, Dagaut P. Experimental and numerical studies of the diluent influence (N2, Ar, He, Xe) on stable premixed methane flames in micro- combustion, Proceedings of the Combustion Institute 2021; 38(4): 6753-6761.
  • [7] Yılmaz I, Cam Y, Alabas B. Effect of N2 dilution on combustion instabilities and emissions in biogas flame, Fuel 2022; 308: 121943.
  • [8] Tao C, Zhou H. Dilution effects of CO2, Ar, N2 and He microjets on the combustion dynamic and emission characteristics of unsteady premixed flame, Aerospace Science and Technology 2021; 111: 106537.
  • [9] Fan A, Xiang Y, Yang W, Li L. Enhancement of hydrogen combustion efficiency by helium dilution in a micro-combustor with wall cavities, Chemical Engineering and Processing – Process Intensification 2018; 130: 201-207.
  • [10] Kozubkova M, Kozubek E, Nevrly V, Bitala P, Stepanek O, Dlabka J, Vasinek M, Bojko M, Zelinger Z, Kubat P, Grigorova E. The Effect of Nitrogen and Argon Dilution on Methane Oxidation in Laminar Flames, Procedia Engineering 2012; 42: 1826-1839.
  • [11] Zhang J, Mi J, Li P, Wang F, Dally BB. Moderate or Intense Low-Oxygen Dilution Combustion of Methane Diluted by CO2 and N2, Energy&Fuels 2015: 29(7); 4576-4585.
  • [12] Mishra DP. Experimental combustion: an introduction. 1st ed. CRC Press; 2014.
  • [13] Wang M, Zhong Y, Deng K. Experiment investigation of the effects of hydrogen content on the combustion instability of methane/hydrogen lean premixed swirl flames under different acoustic frequency ranges, AIP Advances 2019; 9:4.
  • [14] House JE. Inorganic Chemistry / Chapter 15 - Chemistry of nonmetallic elements III. Groups VIA-VIIIA, Acedemic Press, 2020.
There are 14 citations in total.

Details

Primary Language English
Subjects Thermodynamics and Statistical Physics, Energy Systems Engineering (Other)
Journal Section Research Article
Authors

Buğrahan Alabaş 0000-0002-1040-1110

Adem Altınay This is me 0000-0002-3030-3876

Project Number FYL-2022-11818
Publication Date December 29, 2022
Submission Date August 31, 2022
Acceptance Date October 20, 2022
Published in Issue Year 2022 Volume: 7 Issue: 2

Cite

APA Alabaş, B., & Altınay, A. (2022). Effect of helium dilution on the dynamic stability of lean premixed methane flame in a model gas turbine combustor. International Journal of Energy Studies, 7(2), 113-126. https://doi.org/10.58559/ijes.1169274
AMA Alabaş B, Altınay A. Effect of helium dilution on the dynamic stability of lean premixed methane flame in a model gas turbine combustor. Int J Energy Studies. December 2022;7(2):113-126. doi:10.58559/ijes.1169274
Chicago Alabaş, Buğrahan, and Adem Altınay. “Effect of Helium Dilution on the Dynamic Stability of Lean Premixed Methane Flame in a Model Gas Turbine Combustor”. International Journal of Energy Studies 7, no. 2 (December 2022): 113-26. https://doi.org/10.58559/ijes.1169274.
EndNote Alabaş B, Altınay A (December 1, 2022) Effect of helium dilution on the dynamic stability of lean premixed methane flame in a model gas turbine combustor. International Journal of Energy Studies 7 2 113–126.
IEEE B. Alabaş and A. Altınay, “Effect of helium dilution on the dynamic stability of lean premixed methane flame in a model gas turbine combustor”, Int J Energy Studies, vol. 7, no. 2, pp. 113–126, 2022, doi: 10.58559/ijes.1169274.
ISNAD Alabaş, Buğrahan - Altınay, Adem. “Effect of Helium Dilution on the Dynamic Stability of Lean Premixed Methane Flame in a Model Gas Turbine Combustor”. International Journal of Energy Studies 7/2 (December 2022), 113-126. https://doi.org/10.58559/ijes.1169274.
JAMA Alabaş B, Altınay A. Effect of helium dilution on the dynamic stability of lean premixed methane flame in a model gas turbine combustor. Int J Energy Studies. 2022;7:113–126.
MLA Alabaş, Buğrahan and Adem Altınay. “Effect of Helium Dilution on the Dynamic Stability of Lean Premixed Methane Flame in a Model Gas Turbine Combustor”. International Journal of Energy Studies, vol. 7, no. 2, 2022, pp. 113-26, doi:10.58559/ijes.1169274.
Vancouver Alabaş B, Altınay A. Effect of helium dilution on the dynamic stability of lean premixed methane flame in a model gas turbine combustor. Int J Energy Studies. 2022;7(2):113-26.