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Assessment of the carbonized woody briquette gasification in an updraft fixed bed gasifier using the Euler-Euler model

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  • Lu, Ding
  • Yoshikawa, Kunio
  • Ismail, Tamer M.
  • Abd El-Salam, M.

Abstract

This paper reports on the numerical simulation and experimental studies of carbonized woody briquettes gasification employing an updraft fixed bed gasifier. There is a strong industrial stake when it comes to the optimization of this gasification process, in terms of the flexibility of the type of biomass and its conversion efficiency. The influences of the gasification temperature and the equivalence ratio (ER) on the gaseous production and the tar yield were examined. In order to optimize the operating conditions of the biomass gasification process, a numerical model was developed using the COMMENT code (Combustion Mathematics and Energy Transport). This model is a two-dimensional computer model describing the biomass gasification process in an updraft gasifier using carbonized woody briquettes as fuel. The present study proved that ER significantly influenced the composition of gaseous species and its optimization is important to obtain a higher gasification rate. The particle size presented considerable effects on the temperature distribution within the gasifier and the syngas compositions produced during the gasification process as well. The numerical model presented was validated by the experimental results and it provided a promising way to simulate the gasification of solid fuel, which is considered to be a versatile and useful computational tool to optimize the biomass gasification process and to design fixed bed gasifiers.

Suggested Citation

  • Lu, Ding & Yoshikawa, Kunio & Ismail, Tamer M. & Abd El-Salam, M., 2018. "Assessment of the carbonized woody briquette gasification in an updraft fixed bed gasifier using the Euler-Euler model," Applied Energy, Elsevier, vol. 220(C), pages 70-86.
    • Handle: RePEc:eee:appene:v:220:y:2018:i:c:p:70-86
    DOI: 10.1016/j.apenergy.2018.03.063
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    7. Knutsson, Pavleta & Maric, Jelena & Knutsson, Jesper & Larsson, Anton & Breitholtz, Claes & Seemann, Martin, 2019. "Potassium speciation and distribution for the K2CO3 additive-induced activation/deactivation of olivine during gasification of woody biomass," Applied Energy, Elsevier, vol. 248(C), pages 538-544.
    8. Ismail, Tamer M. & Kobayashi, Yasunori & Yoshikawa, Kunio & Lu, Ding & Kobori, Takahiro & Araki, Kuniomi & Kanazawa, Kiryu & Takahashi, Fumitake & Abd El-Salam, M., 2020. "Numerical investigation on the effect of electron injected air for thermal decomposition of solid waste," Applied Energy, Elsevier, vol. 269(C).
    9. Zhang, Yayun & Duan, Dengle & Lei, Hanwu & Villota, Elmar & Ruan, Roger, 2019. "Jet fuel production from waste plastics via catalytic pyrolysis with activated carbons," Applied Energy, Elsevier, vol. 251(C), pages 1-1.
    10. Vakalis, Stergios & Moustakas, Konstantinos, 2019. "Modelling of advanced gasification systems (MAGSY): Simulation and validation for the case of the rising co-current reactor," Applied Energy, Elsevier, vol. 242(C), pages 526-533.
    11. Adnan, Muflih A. & Azis, Muhammad Mufti & Quddus, Mohammad R. & Hossain, Mohammad M., 2018. "Integrated liquid fuel based chemical looping combustion – parametric study for efficient power generation and CO2 capture," Applied Energy, Elsevier, vol. 228(C), pages 2398-2406.
    12. Porcu, Andrea & Xu, Yupeng & Mureddu, Mauro & Dessì, Federica & Shahnam, Mehrdad & Rogers, William A. & Sastri, Bhima S. & Pettinau, Alberto, 2021. "Experimental validation of a multiphase flow model of a lab-scale fluidized-bed gasification unit," Applied Energy, Elsevier, vol. 293(C).

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