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Improved syngas processing for enhanced Bio-SNG production: A techno-economic assessment

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  • Haro, Pedro
  • Johnsson, Filip
  • Thunman, Henrik

Abstract

This study analyzes the modification of an existing process configuration train for Bio-SNG production using an indirectly-heated circulating fluidized bed gasifier. Taking the process design of the Gothenburg Biomass Gasification (GoBiGas) project, we investigate four modifications to the process design in order to analyze what the potential effect from implementation of the results from state-of-the-art research activities on bio-syngas conversion is. Firstly, aromatic compounds are converted into Bio-SNG. Secondly, olefin hydration and hydrodesulfurization units are combined in a high-temperature hydrodesulfurization unit. Thirdly, the methanation section is modified and the pre-reformer unit in the syngas conditioning section is eliminated. Finally, H2S and CO2 removal are combined in the same unit. In order to provide a comprehensive comparison of current GoBiGas process and the configuration investigated in this work, process flowcharts and energy and material balances are provided. The study reveals that the investigated configuration has the potential to reduce capital investment and operating costs. Considering Phase II of GoBiGas project, a potential reduction of 29% of the capital investment and 7 €/MWh of produced Bio-SNG could be achieved comparing planned and investigated configurations. The results prove that investigated modifications can have a large impact in the future commercialization of Bio-SNG.

Suggested Citation

  • Haro, Pedro & Johnsson, Filip & Thunman, Henrik, 2016. "Improved syngas processing for enhanced Bio-SNG production: A techno-economic assessment," Energy, Elsevier, vol. 101(C), pages 380-389.
  • Handle: RePEc:eee:energy:v:101:y:2016:i:c:p:380-389
    DOI: 10.1016/j.energy.2016.02.037
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    5. Keogh, Niamh & Corr, D. & Monaghan, R.F.D, 2022. "Biogenic renewable gas injection into natural gas grids: A review of technical and economic modelling studies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 168(C).
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    7. Leimert, Jonas M. & Neubert, Michael & Treiber, Peter & Dillig, Marius & Karl, Jürgen, 2018. "Combining the Heatpipe Reformer technology with hydrogen-intensified methanation for production of synthetic natural gas," Applied Energy, Elsevier, vol. 217(C), pages 37-46.
    8. Famoso, F. & Prestipino, M. & Brusca, S. & Galvagno, A., 2020. "Designing sustainable bioenergy from residual biomass: Site allocation criteria and energy/exergy performance indicators," Applied Energy, Elsevier, vol. 274(C).
    9. Karl, Jürgen & Pröll, Tobias, 2018. "Steam gasification of biomass in dual fluidized bed gasifiers: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 98(C), pages 64-78.
    10. Wu, Wei & Taipabu, Muhammad Ikhsan & Chang, Wei-Chen & Viswanathan, Karthickeyan & Xie, Yi-Lin & Kuo, Po-Chih, 2022. "Economic dispatch of torrefied biomass polygeneration systems considering power/SNG grid demands," Renewable Energy, Elsevier, vol. 196(C), pages 707-719.
    11. Martínez, I. & Romano, M.C., 2016. "Flexible sorption enhanced gasification (SEG) of biomass for the production of synthetic natural gas (SNG) and liquid biofuels: Process assessment of stand-alone and power-to-gas plant schemes for SNG," Energy, Elsevier, vol. 113(C), pages 615-630.
    12. Antonio Molino & Vincenzo Larocca & Simeone Chianese & Dino Musmarra, 2018. "Biofuels Production by Biomass Gasification: A Review," Energies, MDPI, vol. 11(4), pages 1-31, March.
    13. Ribeiro Domingos, Meire Ellen Gorete & Flórez-Orrego, Daniel & dos Santos, Moisés Teles & de Oliveira Junior, Silvio & Maréchal, François, 2023. "Process modeling and integration of hydrogen and synthetic natural gas production in a kraft pulp mill via black liquor gasification," Renewable Energy, Elsevier, vol. 219(P1).
    14. Bidart, Christian & Wichert, Martin & Kolb, Gunther & Held, Michael, 2022. "Biogas catalytic methanation for biomethane production as fuel in freight transport - A carbon footprint assessment," Renewable and Sustainable Energy Reviews, Elsevier, vol. 168(C).
    15. Avinash Vijay & Adam Hawkes, 2017. "The Techno-Economics of Small-Scale Residential Heating in Low Carbon Futures," Energies, MDPI, vol. 10(11), pages 1-23, November.
    16. Jiang, Peng & Parvez, Ashak Mahmud & Meng, Yang & Xu, Meng-xia & Shui, Tian-chi & Sun, Cheng-gong & Wu, Tao, 2019. "Exergetic, economic and carbon emission studies of bio-olefin production via indirect steam gasification process," Energy, Elsevier, vol. 187(C).
    17. Singlitico, Alessandro & Goggins, Jamie & Monaghan, Rory F.D., 2018. "Evaluation of the potential and geospatial distribution of waste and residues for bio-SNG production: A case study for the Republic of Ireland," Renewable and Sustainable Energy Reviews, Elsevier, vol. 98(C), pages 288-301.
    18. Gutiérrez, R.E. & Guerra, K. & Haro, P., 2022. "Exploring the techno-economic feasibility of new bioeconomy concepts: Solar-assisted thermochemical biorefineries," Applied Energy, Elsevier, vol. 322(C).
    19. Long, A. & Bose, A. & O'Shea, R. & Monaghan, R. & Murphy, J.D., 2021. "Implications of European Union recast Renewable Energy Directive sustainability criteria for renewable heat and transport: Case study of willow biomethane in Ireland," Renewable and Sustainable Energy Reviews, Elsevier, vol. 150(C).
    20. Siwen Zhang & Haiming Gu & Jing Qian & Wioletta Raróg-Pilecka & Yuan Wang & Qijing Wu & Hao Zhao, 2023. "Techno-Economic Assessment of High-Safety and Cost-Effective Syngas Produced by O 2 -Enriched Air Gasification with 40–70% O 2 Purity," Energies, MDPI, vol. 16(8), pages 1-13, April.

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