Research Article
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Electric tariffs and thermal energy storage systems for buildings

Year 2022, Volume: 6 Issue: 4, 257 - 262, 20.12.2022
https://doi.org/10.26701/ems.1188559

Abstract

Thermal energy storage systems are systems that can be an alternative to the systems used especially in residential heating in our country. These systems are systems that reduce CO2 emissions, are efficient and can reduce consumption by shifting electricity demand to night. In this study, the ten-year price changes of the fuels used for heating in our country, the change in the real electricity consumption of a province over time, the electricity tariffs were examined and cost calculations were made in case of heating a space. It is seen that fuel prices have increased significantly in recent years, and thermal energy storage systems (TES) are 20-40% less costly than other systems until 2020, and 40-55% less costly than natural gas in 2021 and 2022.

Supporting Institution

Sivas Cumhuriyet University's Scientific Research Projects Unit

Project Number

M-787

Thanks

The Sivas Cumhuriyet University's Scientific Research Projects Unit (SCUBAP) provided funding for this work under the terms of project M-787. We would like to thank SCUBAP for their support

References

  • [1] Eames P., Loveday D.,Haines V., Romanos P. (2014). The Future Role of Thermal Energy Storage in the UK Energy System, U.K. Energy Research Center.
  • [2] International Energy Agency (2021), Electricity Market Report.
  • [3] https://www.gensed.org/basin/tei%CC%87as-2021-aralik-ayi-kurulu-guc-raporunu-yayinladi
  • [4] https://enerji.gov.tr/eigm-yayinlar
  • [5] Guizhi X., Xiao H., Zhirong L., Chao X., Cenyu Y., Zhanfeng D. (2018). Experimental And Numerical Study Of An Electrical Thermal Storage Device For Space Heating, Energies, 11, pp.2180.
  • [6] Syed, A.M. (2011). Electric Thermal Storage Option For Nova Scotia Power Customers: A Case Study Of A Typical Electrically Heated Nova Scotia House, Energy Engineering, 108:6, pp.69-79.
  • [7] Hughes, L., (2010). Meeting Residential Space Heating Demand With Wind-Generated Electricity, Renewable Energy, 8:35, pp.1765-1772
  • [8] Bedouani B.Y., Moreau A, Parent M., Labrecque B. (2001). Central Electric Thermal Storage (ETS) Feasibility For Residential Applications: Part 1. Numerical And Experimental Study, International Journal of Energy Research., 25, pp. 53-72.
  • [9] Bedouani B.Y., Labrecque B., Parent M., Legault A. (2001) .Central Electric Thermal Storage (ETS) Feasibility For Residential Applications: Part 2. Techno-Economic Study, International Journal of Energy Research., 25, pp. 73-78.
  • [10] Fertelli A. (2022). Energy Storage Systems and Applicability for Buildings, I. Interdıscıplınary Approaches Natıonal Congress, Istanbul, Turkiye.
Year 2022, Volume: 6 Issue: 4, 257 - 262, 20.12.2022
https://doi.org/10.26701/ems.1188559

Abstract

Project Number

M-787

References

  • [1] Eames P., Loveday D.,Haines V., Romanos P. (2014). The Future Role of Thermal Energy Storage in the UK Energy System, U.K. Energy Research Center.
  • [2] International Energy Agency (2021), Electricity Market Report.
  • [3] https://www.gensed.org/basin/tei%CC%87as-2021-aralik-ayi-kurulu-guc-raporunu-yayinladi
  • [4] https://enerji.gov.tr/eigm-yayinlar
  • [5] Guizhi X., Xiao H., Zhirong L., Chao X., Cenyu Y., Zhanfeng D. (2018). Experimental And Numerical Study Of An Electrical Thermal Storage Device For Space Heating, Energies, 11, pp.2180.
  • [6] Syed, A.M. (2011). Electric Thermal Storage Option For Nova Scotia Power Customers: A Case Study Of A Typical Electrically Heated Nova Scotia House, Energy Engineering, 108:6, pp.69-79.
  • [7] Hughes, L., (2010). Meeting Residential Space Heating Demand With Wind-Generated Electricity, Renewable Energy, 8:35, pp.1765-1772
  • [8] Bedouani B.Y., Moreau A, Parent M., Labrecque B. (2001). Central Electric Thermal Storage (ETS) Feasibility For Residential Applications: Part 1. Numerical And Experimental Study, International Journal of Energy Research., 25, pp. 53-72.
  • [9] Bedouani B.Y., Labrecque B., Parent M., Legault A. (2001) .Central Electric Thermal Storage (ETS) Feasibility For Residential Applications: Part 2. Techno-Economic Study, International Journal of Energy Research., 25, pp. 73-78.
  • [10] Fertelli A. (2022). Energy Storage Systems and Applicability for Buildings, I. Interdıscıplınary Approaches Natıonal Congress, Istanbul, Turkiye.
There are 10 citations in total.

Details

Primary Language English
Subjects Mechanical Engineering
Journal Section Research Article
Authors

Ahmet Fertelli 0000-0003-2279-1918

Project Number M-787
Publication Date December 20, 2022
Acceptance Date October 31, 2022
Published in Issue Year 2022 Volume: 6 Issue: 4

Cite

APA Fertelli, A. (2022). Electric tariffs and thermal energy storage systems for buildings. European Mechanical Science, 6(4), 257-262. https://doi.org/10.26701/ems.1188559

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