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The effect of swirl burner design configuration on combustion and emission characteristics of lean pre-vaporized premixed flames

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  • Belal, Belal Y.
  • Li, Gesheng
  • Zhang, Zunhua
  • El-Batsh, H.M.
  • Moneib, Hany A.
  • Attia, Ali M.A.

Abstract

The present paper experimentally provides a quantitative comparison between the aerodynamic flow field at non-reaction conditions (cold flow) and the combustion and emission characteristics (hot conditions) of two swirl burners having the same swirl number of 0.55 but with two different configurations. The first burner features an annular outer swirler (swirl angle of 40°) and multiple central circular jets, leading to “low swirl combustion”, whereas the second burner has a blocked central passage and an outer swirler (swirl angle of 35°) resulting in “high swirl combustion”; featuring a central recirculation zone. The cold flow study is conducted using a calibrated five-hole probe while the combustion and emission characteristics are obtained via measurements of flame temperatures and the dry volumetric analysis of CO and NOx emissions. Each burner is coaxially mounted to a vertical cylindrical combustor; inside which a lean (equivalence ratio: ϕ = 0.75), pre-vaporized (preheated to a temperature of 523 K) partially premixed mixture of Jet A-1 fuel and air are admitted. The former low swirl combustion burner gives a bulk stable and uniform reaction zone (W-shape) close to the burner exit with a very slight lifting; confirming the concept of “stable lifting” while reducing the pressure drop across the burner exit and eliminating hot spots in the reaction zone. The high swirl combustion burner exhibits a strong central recirculation zone (better flame stability) that is surrounded by an outer V-shape reaction zone having comparatively higher peak levels of temperature, CO and NOx that would lead to greater liability of higher exhaust emission.

Suggested Citation

  • Belal, Belal Y. & Li, Gesheng & Zhang, Zunhua & El-Batsh, H.M. & Moneib, Hany A. & Attia, Ali M.A., 2021. "The effect of swirl burner design configuration on combustion and emission characteristics of lean pre-vaporized premixed flames," Energy, Elsevier, vol. 228(C).
  • Handle: RePEc:eee:energy:v:228:y:2021:i:c:s0360544221008719
    DOI: 10.1016/j.energy.2021.120622
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    References listed on IDEAS

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    1. Wang, Qingxiang & Chen, Zhichao & Li, Liankai & Zeng, Lingyan & Li, Zhengqi, 2020. "Achievement in ultra-low-load combustion stability for an anthracite- and down-fired boiler after applying novel swirl burners: From laboratory experiments to industrial applications," Energy, Elsevier, vol. 192(C).
    2. El-Zoheiry, Radwan M. & EL-Seesy, Ahmed I. & Attia, Ali M.A. & He, Zhixia & El-Batsh, Hesham M., 2020. "Combustion and emission characteristics of Jojoba biodiesel-jet A1 mixtures applying a lean premixed pre-vaporized combustion techniques: An experimental investigation," Renewable Energy, Elsevier, vol. 162(C), pages 2227-2245.
    3. Zhang, Zhihao & Liu, Xiao & Gong, Yaozhen & Yang, Yang & Tang, Zijia & Liu, Gang & Deng, Fuquan & Yang, Jialong & Zheng, Hongtao, 2020. "Experimental study of stratified swirl flame dynamics in a model gas turbine combustor," Energy, Elsevier, vol. 211(C).
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    1. Venu, Harish & Veza, Ibham & Selvam, Lokesh & Appavu, Prabhu & Raju, V. Dhana & Subramani, Lingesan & Nair, Jayashri N., 2022. "Analysis of particle size diameter (PSD), mass fraction burnt (MFB) and particulate number (PN) emissions in a diesel engine powered by diesel/biodiesel/n-amyl alcohol blends," Energy, Elsevier, vol. 250(C).
    2. Masoud, Shaimaa M. & Attia, Ali M.A. & Salem, Hindawi & El-Zoheiry, Radwan M., 2023. "Investigation of jet A-1 and waste cooking oil biodiesel fuel blend flame characteristics stabilized by radial swirler in lean pre-vaporized premixed combustor," Energy, Elsevier, vol. 263(PC).
    3. Józsa, Viktor & Malý, Milan & Füzesi, Dániel & Rácz, Erika & Kardos, Réka Anna & Jedelský, Jan, 2023. "Schlieren analysis of non-MILD distributed combustion in a mixture temperature-controlled burner," Energy, Elsevier, vol. 273(C).

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