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Assessment of mitigation options for the energy system in Bulgaria

Author

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  • Christov, Christo
  • Simeonova, Katja
  • Todorova, Sevdalina
  • Krastev, Vladimir

Abstract

The Bulgarian greenhouse gas (GHG) emission profile reveals the energy sector as the most significant emission source and also as an area where great potential for GHG emissions reduction exists. Mitigation options in energy supply were selected considering the potential of fossil fuel substitution and new energy technology implementation in the context of the existing structure of energy system and projects for mid- and long-term development. Basically three modules of ENPEP were used: BALANCE -- to calculate the energy flows and energy cost from primary fuel resources and fuel import to energy end-use, IMPACT -- to calculate GHG emissions, and ELECTRIC -- to project the electric system long-term development. Different mitigation measures combined in four scenarios were developed. The integrated mitigation scenario incorporated a mix of mitigation measures in the energy demand and supply. Implementation of CO2 mitigation measures both in energy demand and energy supply would reduce the 2020 emission level by 34.3 Tg (29.1%), and by 544.2 Tg (21.7%) for the entire study period 2000 - 2020, compared to the baseline scenario.

Suggested Citation

  • Christov, Christo & Simeonova, Katja & Todorova, Sevdalina & Krastev, Vladimir, 1997. "Assessment of mitigation options for the energy system in Bulgaria," Applied Energy, Elsevier, vol. 56(3-4), pages 299-308, March.
  • Handle: RePEc:eee:appene:v:56:y:1997:i:3-4:p:299-308
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    Cited by:

    1. Halkos, George & Tzeremes, Panagiotis, 2015. "Scenario analysis on greenhouse gas emissions reduction in Southeast Balkans' energy system," MPRA Paper 65280, University Library of Munich, Germany.
    2. Baldini, Mattia & Klinge Jacobsen, Henrik, 2016. "Optimal trade-offs between energy efficiency improvements and additional renewable energy supply: A review of international experiences," MPRA Paper 102031, University Library of Munich, Germany.
    3. Taseska, V. & Markovska, N. & Causevski, A. & Bosevski, T. & Pop-Jordanov, J., 2011. "Greenhouse gases (GHG) emissions reduction in a power system predominantly based on lignite," Energy, Elsevier, vol. 36(4), pages 2266-2270.

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