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CFD-DEM simulation of air-blown gasification of biomass in a bubbling fluidized bed gasifier: Effects of equivalence ratio and fluidization number

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  • Hwang, In Sik
  • Sohn, Jungho
  • Lee, Uen Do
  • Hwang, Jungho

Abstract

In this study, air-blown gasification of biomass in a bubbling fluidized bed (BFB) gasifier was numerically investigated. A discrete element model coupled with computational fluid dynamics (CFD-DEM), in which gas is considered as continuum and particle is considered as discrete phase, was employed. The flow characteristics of the BFB were discussed and compared with the reported experimental data. Then, the gasification performance of the BFB was discussed for cases with varying fluidization number (FN) values at a constant equivalence ratio (ER). In a parametric study, calculations were performed for various FN values, and the ER value was fixed as 0.27. The formation of CO2 commenced inside the fluidized bed region for FN values exceeding 3.6. When the FN value increased, slight decreases were observed in the CO and H2 concentrations as well as CCE. Thus, an increase in FN beyond a certain value was not recommended. Another parametric study was performed for various combinations of FN & ER values. The CGE increased for FN & ER values between 2.49 & 0.21 and 3.56 & 0.3, whereas it decreased for FN & ER values exceeding 3.56 & 0.3. Therefore, the optimum FN & ER values were considered as 3.56 & 0.3.

Suggested Citation

  • Hwang, In Sik & Sohn, Jungho & Lee, Uen Do & Hwang, Jungho, 2021. "CFD-DEM simulation of air-blown gasification of biomass in a bubbling fluidized bed gasifier: Effects of equivalence ratio and fluidization number," Energy, Elsevier, vol. 219(C).
  • Handle: RePEc:eee:energy:v:219:y:2021:i:c:s0360544220326402
    DOI: 10.1016/j.energy.2020.119533
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    References listed on IDEAS

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    1. Wang, Shuai & Shen, Yansong, 2020. "CFD-DEM study of biomass gasification in a fluidized bed reactor: Effects of key operating parameters," Renewable Energy, Elsevier, vol. 159(C), pages 1146-1164.
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    3. Kim, Young Doo & Yang, Chang Won & Kim, Beom Jong & Kim, Kwang Su & Lee, Jeung Woo & Moon, Ji Hong & Yang, Won & Yu, Tae U & Lee, Uen Do, 2013. "Air-blown gasification of woody biomass in a bubbling fluidized bed gasifier," Applied Energy, Elsevier, vol. 112(C), pages 414-420.
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    2. Wang, Lijun & Du, Xiaocheng & Chen, Junqi & Wu, Zhonggang, 2021. "Numerical study on characteristics of biomass oxygen enriched gasification in the new gasifier on an experimental basis," Renewable Energy, Elsevier, vol. 179(C), pages 815-827.
    3. Fan, Feihu & Zheng, Min & Yang, Shiliang & Wang, Hua, 2021. "Numerical study of fluid dynamics and heat transfer property of dual fluidized bed gasifier," Energy, Elsevier, vol. 234(C).
    4. Dong, Ruihan & Yang, Shiliang & Hu, Jianhang & Chen, Fangjun & Bao, Guirong & Wang, Hua, 2022. "CFD investigation of the in-situ gasification process of biomass in the chemical looping combustion system," Renewable Energy, Elsevier, vol. 185(C), pages 1245-1260.
    5. Wan, Zhanghao & Yang, Shiliang & Hu, Jianhang & Bao, Guirong & Wang, Hua, 2022. "Numerical analysis of wood air gasification in a bubbling fluidized gasifier with reactive charcoal as bed material," Renewable Energy, Elsevier, vol. 188(C), pages 282-298.
    6. Qatan, Hesham Sadeq Obaid & Wan Ab Karim Ghani, Wan Azlina & Md Said, Mohamad Syazarudin, 2023. "Prediction and optimization of syngas production from Napier grass air gasification via kinetic modelling and response surface methodology," Energy, Elsevier, vol. 270(C).

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