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Socio-economic impacts of low-carbon power generation portfolios: Strategies with and without CCS for the Netherlands

Author

Listed:
  • Koelbl, Barbara S.
  • van den Broek, Machteld A.
  • Wilting, Harry C.
  • Sanders, Mark W.J.L.
  • Bulavskaya, Tatyana
  • Wood, Richard
  • Faaij, André P.C.
  • van Vuuren, Detlef P.

Abstract

Carbon Capture and Storage (CCS) could be an interesting option to mitigate greenhouse gas emissions in the Netherlands. This study compares a mitigation strategy for the Dutch power sector that includes CCS to one without on several socio-economic indicators. In particular, we calculate incremental gross value added (GVA), employment and import dependency impacts of two such low-carbon power production portfolios for the Netherlands. We combine technology specific techno-economic bottom-up data with a macro-economic multi-regional Input-Output-Table containing high sectoral detail. For the total economy, we find the differences between these scenarios to be small. Still, gross value added, and employment are lower under the CCS-inclusive strategy, while import dependency is higher. For the power sector, the differences between the scenarios are, however, considerable. Furthermore, our analysis shows that also for other sectors the differences between the scenarios could be large. For instance, a CCS-exclusive strategy leads to considerably higher GVA and employment in domestic construction services, while the CCS-inclusive strategy comes with considerably higher GVA and employment for natural gas mining and related upstream sectors.

Suggested Citation

  • Koelbl, Barbara S. & van den Broek, Machteld A. & Wilting, Harry C. & Sanders, Mark W.J.L. & Bulavskaya, Tatyana & Wood, Richard & Faaij, André P.C. & van Vuuren, Detlef P., 2016. "Socio-economic impacts of low-carbon power generation portfolios: Strategies with and without CCS for the Netherlands," Applied Energy, Elsevier, vol. 183(C), pages 257-277.
    • Handle: RePEc:eee:appene:v:183:y:2016:i:c:p:257-277
    DOI: 10.1016/j.apenergy.2016.08.068
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    2. Zhang, Quanguo & Nurhayati, & Cheng, Chieh-Lun & Nagarajan, Dillirani & Chang, Jo-Shu & Hu, Jianjun & Lee, Duu-Jong, 2017. "Carbon capture and utilization of fermentation CO2: Integrated ethanol fermentation and succinic acid production as an efficient platform," Applied Energy, Elsevier, vol. 206(C), pages 364-371.
    3. Tamaki, Tetsuya & Nozawa, Wataru & Managi, Shunsuke, 2017. "Evaluation of the ocean ecosystem: climate change modelling with backstop technology," MPRA Paper 80549, University Library of Munich, Germany.
    4. Thushara, De Silva M. & Hornberger, George M. & Baroud, Hiba, 2019. "Decision analysis to support the choice of a future power generation pathway for Sri Lanka," Applied Energy, Elsevier, vol. 240(C), pages 680-697.
    5. Lee, Hwarang & Lee, Jeongeun & Koo, Yoonmo, 2022. "Economic impacts of carbon capture and storage on the steel industry–A hybrid energy system model incorporating technological change," Applied Energy, Elsevier, vol. 317(C).
    6. Adel Naseeb & Ashraf Ramadan & Sultan Majed Al-Salem, 2022. "Economic Feasibility Study of a Carbon Capture and Storage (CCS) Integration Project in an Oil-Driven Economy: The Case of the State of Kuwait," IJERPH, MDPI, vol. 19(11), pages 1-19, May.
    7. Xu, Jiazhu & Yi, Yuqin, 2023. "Multi-microgrid low-carbon economy operation strategy considering both source and load uncertainty: A Nash bargaining approach," Energy, Elsevier, vol. 263(PB).
    8. Tamaki, Tetsuya & Nozawa, Wataru & Managi, Shunsuke, 2017. "Evaluation of the ocean ecosystem: Climate change modelling with backstop technologies," Applied Energy, Elsevier, vol. 205(C), pages 428-439.
    9. Mu, Yaqian & Cai, Wenjia & Evans, Samuel & Wang, Can & Roland-Holst, David, 2018. "Employment impacts of renewable energy policies in China: A decomposition analysis based on a CGE modeling framework," Applied Energy, Elsevier, vol. 210(C), pages 256-267.
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