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The effect of hydrogen addition on the flame behavior of a non-premixed oxy-methane jet in a lab-scale furnace

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  • Oh, Jeongseog
  • Noh, Dongsoon
  • Ko, Changbok

Abstract

The effects of hydrogen (H2) addition to a fuel jet on a non-premixed oxy-methane flame were experimentally investigated in a lab-scale furnace with a slot-type burner. To observe the flame behavior of a non-premixed oxy-methane jet, the flame stabilization and flame luminescence were measured. The flow velocity was varied in the range of uF = 7 ∼ 50 m/s for methane (CH4) gas and uOx = 10 ∼ 120 m/s for oxygen (O2) gas. The objective of the current study is to investigate the characteristics of the flame stabilization, flame spectra, and flame structure of a non-premixed oxy-methane flame as increasing H2 mole fraction in the fuel jet. The mole fraction of H2 gas in the fuel jet (XH2) was changed from XH2 = 0–15% over five steps. The experimental measurement showed that the flame stabilization area broadened as the hydrogen mole fraction in a fuel jet increased. In addition, the flame length of the non-premixed oxy-methane flame decreased as the hydrogen mole fraction in the fuel jet increased.

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  • Oh, Jeongseog & Noh, Dongsoon & Ko, Changbok, 2013. "The effect of hydrogen addition on the flame behavior of a non-premixed oxy-methane jet in a lab-scale furnace," Energy, Elsevier, vol. 62(C), pages 362-369.
    • Handle: RePEc:eee:energy:v:62:y:2013:i:c:p:362-369
    DOI: 10.1016/j.energy.2013.09.049
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    References listed on IDEAS

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    2. Wan, Huaxian & Gao, Zihe & Ji, Jie & Zhang, Yongming & Li, Kaiyuan, 2018. "Experimental and theoretical study on flame front temperatures within ceiling jets from turbulent diffusion flames of n-heptane fuel," Energy, Elsevier, vol. 164(C), pages 79-86.
    3. Hussain, Muzafar & Abdelhafez, Ahmed & Nemitallah, Medhat A. & Araoye, Abdulrazaq A. & Ben-Mansour, Rached & Habib, Mohamed A., 2020. "A highly diluted oxy-fuel micromixer combustor with hydrogen enrichment for enhancing turndown in gas turbines," Applied Energy, Elsevier, vol. 279(C).
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    5. Stephan Karmann & Stefan Eicheldinger & Maximilian Prager & Malte Jaensch & Georg Wachtmeister, 2023. "Optical and Thermodynamic Investigations of a Methane- and Hydrogen-Blend-Fueled Large-Bore Engine Using a Fisheye Optical System," Energies, MDPI, vol. 16(4), pages 1-26, February.
    6. Ramadan, Islam A. & Ibrahim, Abdelmaged H. & Abou-Arab, Tharwat W. & Rashwan, Sherif S. & Nemitallah, Medhat A. & Habib, Mohamed A., 2016. "Effects of oxidizer flexibility and bluff-body blockage ratio on flammability limits of diffusion flames," Applied Energy, Elsevier, vol. 178(C), pages 19-28.
    7. Choi, Sun & Kim, Tae Young & Kim, Hee Kyung & Koo, Jaye & Kim, Jeong Soo & Kwon, Oh Chae, 2015. "Properties of inverse nonpremixed pure O2/CH4 coflow flames in a model combustor," Energy, Elsevier, vol. 93(P1), pages 1105-1115.
    8. Lazaroiu, Gheorghe & Pop, Elena & Negreanu, Gabriel & Pisa, Ionel & Mihaescu, Lucian & Bondrea, Andreya & Berbece, Viorel, 2017. "Biomass combustion with hydrogen injection for energy applications," Energy, Elsevier, vol. 127(C), pages 351-357.
    9. Zaidani, Mouna & Tajik, Abdul Raouf & Qureshi, Zahid Ahmed & Shamim, Tariq & Abu Al-Rub, Rashid K., 2018. "Investigating the flue-wall deformation effects on performance characteristics of an open-top aluminum anode baking furnace," Applied Energy, Elsevier, vol. 231(C), pages 1033-1049.
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    11. Tajik, Abdul Raouf & Shamim, Tariq & Zaidani, Mouna & Abu Al-Rub, Rashid K., 2018. "The effects of flue-wall design modifications on combustion and flow characteristics of an aluminum anode baking furnace-CFD modeling," Applied Energy, Elsevier, vol. 230(C), pages 207-219.

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