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Thermodynamic analysis of biomedical waste plasma gasification

Author

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  • Paulino, Regina Franciélle Silva
  • Essiptchouk, Alexei Mikhailovich
  • Costa, Lucas Pamplona Cardozo
  • Silveira, José Luz

Abstract

Plasma gasification technology is one of the environmentally correct techniques that can be applied in the processing of biomedical waste (BW). This work aims to present thermodynamic studies with a simulation of the plasma gasification of BW produced in Brazil. Through thermodynamic analysis is determined the best operating point of the reactor, which corresponds to the temperature where the energy yield of syngas is maximum, and consequently the syngas chemical composition and its lower heating value (LHV). Finally, it is estimated the electrical power required in the BW processing and the potential for electricity generation through the burning of syngas in an internal combustion engine (ICE) and gas turbine set (GTS), and the capacity to supply the necessary energy in the plasma gasifier. As conclusion, the best operating point for the processing of typical Brazilian BW is at a temperature of 1040 K with a maximum gas energy yield of 2.25. For this temperature the syngas consists of 63.65 wt% of carbon monoxide and 5.35 wt% of hydrogen and LHV of 13.47 MJ/kg. Finally, for processing 1 kg/s of BW are required 6292 kW of electrical power, and the maximum electricity production potential is 3132 kW in ICE and 3758 kW in GTS.

Suggested Citation

  • Paulino, Regina Franciélle Silva & Essiptchouk, Alexei Mikhailovich & Costa, Lucas Pamplona Cardozo & Silveira, José Luz, 2022. "Thermodynamic analysis of biomedical waste plasma gasification," Energy, Elsevier, vol. 244(PA).
  • Handle: RePEc:eee:energy:v:244:y:2022:i:pa:s0360544221028498
    DOI: 10.1016/j.energy.2021.122600
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    Cited by:

    1. Pawlak-Kruczek, Halina & Mularski, Jakub & Ostrycharczyk, Michał & Czerep, Michał & Baranowski, Marcin & Mączka, Tadeusz & Sadowski, Krzysztof & Hulisz, Patryk, 2023. "Application of plasma burners for char combustion in a pulverized coal-fired (PC) boiler – Experimental and numerical analysis," Energy, Elsevier, vol. 279(C).
    2. Yin, Kexin & Wang, Yangyang & Wu, Qiming & Zhang, Jifu & Zhou, Yaru & Xu, Zaifeng & Zhu, Zhaoyou & Qi, Jianguang & Wang, Yinglong & Cui, Peizhe, 2024. "Thermodynamic analysis of a plasma co-gasification process for hydrogen production using sludge and food waste as mixed raw materials," Renewable Energy, Elsevier, vol. 222(C).

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