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Electrification of the industrial sector in 100% renewable energy scenarios

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  • Sorknæs, Peter
  • Johannsen, Rasmus M.
  • Korberg, Andrei D.
  • Nielsen, Tore B.
  • Petersen, Uni R.
  • Mathiesen, Brian V.

Abstract

Future renewable energy systems with high shares of variable renewable energy production must also include technologies and measures to balance these production fluctuations. This could be in the form of electricity storage, energy demand adaptation (also known as demand-side management), or sector coupling. Industry electrification couples electricity and industry sectors by replacing the fossil fuel demand with electricity demands, thus enabling further integration of renewable electricity and transitioning the hard-to-abate energy sector. The effects of electrification on 100% renewable energy systems are rarely investigated. When investigated, one 100% renewable energy system scenario is used, which is often created by the same author, actor or organisation and may result in a narrow view of the possibilities for future energy systems. This study quantifies the role of industry electrification in the context of different 100% renewable energy system scenarios created by different relevant actors, to identify how its role may differ based on the scenario investigated. It is found that direct electrification of industrial process heat demands should be favoured over, e.g., a fuel shift to hydrogen-based process systems, even when these provide more flexibility.

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  • Sorknæs, Peter & Johannsen, Rasmus M. & Korberg, Andrei D. & Nielsen, Tore B. & Petersen, Uni R. & Mathiesen, Brian V., 2022. "Electrification of the industrial sector in 100% renewable energy scenarios," Energy, Elsevier, vol. 254(PB).
  • Handle: RePEc:eee:energy:v:254:y:2022:i:pb:s0360544222012427
    DOI: 10.1016/j.energy.2022.124339
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    5. Khosravani, Ali & DeHaan, Matthew & Billings, Blake W. & Powell, Kody M., 2024. "Electrification of residential and commercial buildings integrated with hybrid renewable energy systems: A techno-economic analysis," Energy, Elsevier, vol. 302(C).
    6. Jamali, Mohammad-Bagher & Rasti-Barzoki, Morteza & Altmann, Jörn, 2023. "An evolutionary game-theoretic approach for investigating the long-term behavior of the industry sector for purchasing renewable and non-renewable energy: A case study of Iran," Energy, Elsevier, vol. 285(C).
    7. Johannsen, Rasmus Magni & Mathiesen, Brian Vad & Kermeli, Katerina & Crijns-Graus, Wina & Østergaard, Poul Alberg, 2023. "Exploring pathways to 100% renewable energy in European industry," Energy, Elsevier, vol. 268(C).
    8. Tomasz Neumann, 2023. "Efficient Use of Low-Emission Power Supply for Means of Transport," Energies, MDPI, vol. 16(8), pages 1-14, April.
    9. Sadeghi, Shayan & Ghandehariun, Samane & Rosen, Marc A., 2023. "Waste heat recovery potential in the thermochemical copper–chlorine cycle for hydrogen production: Development of an efficient and cost-effective heat exchanger network," Energy, Elsevier, vol. 282(C).
    10. Zaiter, Issa & Ramadan, Mohamad & Bouabid, Ali & El-Fadel, Mutasem & Mezher, Toufic, 2023. "Potential utilization of hydrogen in the UAE's industrial sector," Energy, Elsevier, vol. 280(C).
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    12. Massimo Beccarello & Giacomo Di Foggia, 2023. "Review and Perspectives of Key Decarbonization Drivers to 2030," Energies, MDPI, vol. 16(3), pages 1-13, January.

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