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Energy recovery from plastic and biomass waste by means of fluidized bed gasification: A life cycle inventory model

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  • Ardolino, Filomena
  • Lodato, Concetta
  • Astrup, Thomas F.
  • Arena, Umberto

Abstract

The study provides for the first time a life cycle inventory model for the fluidized bed gasification of wastes, based on a large amount of high-quality data. All of them have been obtained from a pilot scale fluidized bed gasifier, fed with ten types of waste and biomass, under a wide range of operating conditions. The model refers to commercial scale gasifiers having a “thermal configuration”, where the generated syngas is immediately burned downstream of the reactor. Key relationships between process- and waste-specific parameters have been defined. The model quantifies the main inputs and outputs of the gasification process (emissions, energy recovery, ash disposal, resource consumptions), providing high-quality data that could contribute to improve life cycle assessment modelling of waste gasification. Finally, some case studies have been implemented in the EASETECH software to illustrate the model applicability, evaluate the role of main parameters, and compare the environmental performances of gasification power units with that of the European electricity mix. The performances appear highly affected by metal contents in the waste-derived fuels, while the model results to a limited extent are sensitive to the equivalence ratio and the net electrical efficiency of the energy conversion.

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  • Ardolino, Filomena & Lodato, Concetta & Astrup, Thomas F. & Arena, Umberto, 2018. "Energy recovery from plastic and biomass waste by means of fluidized bed gasification: A life cycle inventory model," Energy, Elsevier, vol. 165(PB), pages 299-314.
    • Handle: RePEc:eee:energy:v:165:y:2018:i:pb:p:299-314
    DOI: 10.1016/j.energy.2018.09.158
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    References listed on IDEAS

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    2. Casas-Ledón, Yannay & Flores, Mauricio & Jiménez, Romel & Ronsse, Frederik & Dewulf, Jo & Arteaga-Pérez, Luis E., 2019. "On the environmental and economic issues associated with the forestry residues-to-heat and electricity route in Chile: Sawdust gasification as a case study," Energy, Elsevier, vol. 170(C), pages 763-776.
    3. Marcela Taušová & Eva Mihaliková & Katarína Čulková & Beáta Stehlíková & Peter Tauš & Dušan Kudelas & Ľubomír Štrba, 2019. "Recycling of Communal Waste: Current State and Future Potential for Sustainable Development in the EU," Sustainability, MDPI, vol. 11(10), pages 1-16, May.
    4. Parrillo, Francesco & Ardolino, Filomena & Calì, Gabriele & Marotto, Davide & Pettinau, Alberto & Arena, Umberto, 2021. "Fluidized bed gasification of eucalyptus chips: Axial profiles of syngas composition in a pilot scale reactor," Energy, Elsevier, vol. 219(C).
    5. Mo, Wenyu & Xiong, Zhe & Leong, Huiyi & Gong, Xi & Jiang, Long & Xu, Jun & Su, Sheng & Hu, Song & Wang, Yi & Xiang, Jun, 2022. "Processes simulation and environmental evaluation of biofuel production via Co-pyrolysis of tropical agricultural waste," Energy, Elsevier, vol. 242(C).
    6. 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).
    7. Parrillo, Francesco & Ardolino, Filomena & Boccia, Carmine & Calì, Gabriele & Marotto, Davide & Pettinau, Alberto & Arena, Umberto, 2023. "Co-gasification of plastics waste and biomass in a pilot scale fluidized bed reactor," Energy, Elsevier, vol. 273(C).
    8. David Antonio Buentello-Montoya & Miguel Ángel Armenta-Gutiérrez & Victor Manuel Maytorena-Soria, 2023. "Parametric Modelling Study to Determine the Feasibility of the Co-Gasification of Macroalgae and Plastics for the Production of Hydrogen-Rich Syngas," Energies, MDPI, vol. 16(19), pages 1-18, September.

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