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Intermediate steps towards the 2000Â W society in Switzerland: An energy-economic scenario analysis

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  • Schulz, Thorsten F.
  • Kypreos, Socrates
  • Barreto, Leonardo
  • Wokaun, Alexander

Abstract

In the future, sustainable development under the umbrella of the 2000Â W society could be of major interest. Could the target of the 2000Â W society, i.e. a primary energy per capita (PEC) consumption of 2000Â W, be realized until 2050? Various combinations of PEC and CO2 targets are tested, and the additional costs to be paid by the society are estimated. The assessment is carried out with the Swiss MARKAL model, a bottom-up energy-system model projecting future technology investments for Switzerland. The analysis reveals that the 2000Â W society should be seen as a long-term goal. For all contemplated scenarios, a PEC consumption of 3500Â W per capita (w/cap) is feasible in the year 2050. However, strong PEC consumption targets can reduce CO2 emissions to an equivalent of 5% per decade at maximum. For stronger CO2 emission reduction goals, corresponding targets must be formulated explicitly. At an oil price of 75 US$2000/bbl in 2050, the additional (cumulative, discounted) costs to reach a 10% CO2 reduction per decade combined with a 3500Â W per capita target amount to about 40 billion US$2000. On the contrary, to reach pure CO2 reduction targets is drastically cheaper, challenging the vision of the 2000Â W society.

Suggested Citation

  • Schulz, Thorsten F. & Kypreos, Socrates & Barreto, Leonardo & Wokaun, Alexander, 2008. "Intermediate steps towards the 2000Â W society in Switzerland: An energy-economic scenario analysis," Energy Policy, Elsevier, vol. 36(4), pages 1303-1317, April.
    • Handle: RePEc:eee:enepol:v:36:y:2008:i:4:p:1303-1317
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    2. Kannan, Ramachandran & Turton, Hal, 2012. "Cost of ad-hoc nuclear policy uncertainties in the evolution of the Swiss electricity system," Energy Policy, Elsevier, vol. 50(C), pages 391-406.
    3. Kevin J. Warner & Glenn A. Jones, 2017. "The Climate-Independent Need for Renewable Energy in the 21st Century," Energies, MDPI, vol. 10(8), pages 1-13, August.
    4. Shmelev, Stanislav E. & van den Bergh, Jeroen C.J.M., 2016. "Optimal diversity of renewable energy alternatives under multiple criteria: An application to the UK," Renewable and Sustainable Energy Reviews, Elsevier, vol. 60(C), pages 679-691.
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    7. Trutnevyte, Evelina & Stauffacher, Michael & Scholz, Roland W., 2011. "Supporting energy initiatives in small communities by linking visions with energy scenarios and multi-criteria assessment," Energy Policy, Elsevier, vol. 39(12), pages 7884-7895.
    8. Panos, Evangelos & Kober, Tom & Wokaun, Alexander, 2019. "Long term evaluation of electric storage technologies vs alternative flexibility options for the Swiss energy system," Applied Energy, Elsevier, vol. 252(C), pages 1-1.
    9. Yvan Dutil & Daniel Rousse, 2012. "Energy Costs of Energy Savings in Buildings: A Review," Sustainability, MDPI, vol. 4(8), pages 1-22, August.
    10. Blanco, Herib & Nijs, Wouter & Ruf, Johannes & Faaij, André, 2018. "Potential for hydrogen and Power-to-Liquid in a low-carbon EU energy system using cost optimization," Applied Energy, Elsevier, vol. 232(C), pages 617-639.
    11. Andersen, Kristoffer Steen & Wiese, Catharina & Petrovic, Stefan & McKenna, Russell, 2020. "Exploring the role of households’ hurdle rates and demand elasticities in meeting Danish energy-savings target," Energy Policy, Elsevier, vol. 146(C).
    12. Nicolas Weidmann & Ramachandran Kannan & Hal Turton, 2012. "Swiss Climate Change and Nuclear Policy: A Comparative Analysis Using an Energy System Approach and a Sectoral Electricity Model," Swiss Journal of Economics and Statistics (SJES), Swiss Society of Economics and Statistics (SSES), vol. 148(II), pages 275-316, June.
    13. Muhammad Amin & Hamad Hussain Shah & Bilal Bashir & Muhammad Azhar Iqbal & Umer Hameed Shah & Muhammad Umair Ali, 2023. "Environmental Assessment of Hydrogen Utilization in Various Applications and Alternative Renewable Sources for Hydrogen Production: A Review," Energies, MDPI, vol. 16(11), pages 1-25, May.
    14. Rana, Anber & Sadiq, Rehan & Alam, M. Shahria & Karunathilake, Hirushie & Hewage, Kasun, 2021. "Evaluation of financial incentives for green buildings in Canadian landscape," Renewable and Sustainable Energy Reviews, Elsevier, vol. 135(C).
    15. Dagoumas, [alpha].S. & Barker, T.S., 2010. "Pathways to a low-carbon economy for the UK with the macro-econometric E3MG model," Energy Policy, Elsevier, vol. 38(6), pages 3067-3077, June.
    16. Panos, Evangelos & Kannan, Ramachandran, 2016. "The role of domestic biomass in electricity, heat and grid balancing markets in Switzerland," Energy, Elsevier, vol. 112(C), pages 1120-1138.
    17. Hosseini, Seyed Ehsan & Wahid, Mazlan Abdul, 2016. "Hydrogen production from renewable and sustainable energy resources: Promising green energy carrier for clean development," Renewable and Sustainable Energy Reviews, Elsevier, vol. 57(C), pages 850-866.
    18. Groesser, Stefan N., 2014. "Co-evolution of legal and voluntary standards: Development of energy efficiency in Swiss residential building codes," Technological Forecasting and Social Change, Elsevier, vol. 87(C), pages 1-16.
    19. Kannan, Ramachandran & Turton, Hal, 2016. "Long term climate change mitigation goals under the nuclear phase out policy: The Swiss energy system transition," Energy Economics, Elsevier, vol. 55(C), pages 211-222.

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