Buildings Energy-Efficient Renovation Investment

  • Authors

    • Svitlana Sivitska
    • Vira Vartsaba
    • Olena Filonych
    2018-06-20
    https://doi.org/10.14419/ijet.v7i3.2.14562
  • alternative energy, area renewal, energy efficiency, renovation of buildings, state construction policy, strategic priorities.
  • Abstract

    The scientific approach to the definition of strategic investment priorities in the complex renovation of areas affected by natural and technology-related emergencies, the introduction of energy-efficient technologies and alternative energy, which involves the construction of strategic priorities selection matrix with the investment processes coordination in the regional and alternative energy sectors is proposed. Its carrying out allows to improve the investment management process in multivariance terms of investment process implementation options. Influence on certain elements of the territories renovation organization, which will facilitate the additional resources investment involvement for the building structures renovation, is determined.

    The economic effect of the research and development introduction is to reduce the energy and material intensity of the reconstruction complex of works due to the most efficient materials use, as well as the reduction of construction time, labor costs and energy consumption during construction.

     

     

  • References

    1. [1] Global Trends in Renewable Energy Investment 2018, available online: http://www.fs-unep-centre.org, last visit:18.04.2018.

      [2] Onyshchenko, V., Sivitska, S. Alternative energy developing investment support in terms of energy dependence (2014) Economic Annals-XXI, 9-10, 34-37.

      [3] Law of Ukraine "On Alternative Energy Sources" of February 20, 2003 No. 555-IV (Amended by Law No. 2019-VIII dated April 13, 2017) // Bulletin of the Verkhovna Rada of Ukraine. – 2003. - N. 24. – 155.

      [4] Gyanendra Singh Sisodia, Isabel Soares & Paula Ferreira (2016) The effect of sample size on European Union’s renewable energy investment drivers, Applied Economics, 48:53, 5129-5137, DOI: 10.1080/00036846.2016.1173176

      [5] Beyzanur Cayir Ervurala, Ramazan Evrena, Dursun Delen A multi-objective decision-making approach for sustainable energy investment planning (2018) Renewable Energy, 387-402. https://doi.org/10.1016/j.renene.2018.03.051

      [6] Storozhenko, L., Butsky, V., Taranovsky, O. Stability of Compressed Steel Concrete Composite Tubular Columns with Centrifuged Cores // JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH; 46, 1/3; 484; Second World Conference on Steel in Construction; 1998.

      [7] Krasnobayev, V.A., Koshman, S.A. & Mavrina, M.A. Cybern Syst Anal (2014) 50: 969. https://doi.org/10.1007/s10559-014-9688-3

      [8] John Eskewa, Meredith Ratledgea, Michael Wallacea, Shabbir H. Gheewala An environmental Life Cycle Assessment of rooftop solar in Bangkok, Thailand (2018) Renewable Energy Volume 123, 781-792. https://doi.org/10.1016/j.renene.2018.02.045

      [9] Devogelaer, D., Duerinck, J., Gusbin, D., Marenne, Y., Nijs, W., Orsini, M., Pairon, M. (2013) Towards 100% Renewable Energy in Belgium by 2050, available online: http://www.icedd.be/I7/mediatheque/energie/renouvelable/130419_Backcasting_FinalReport.pdf, last visit:11.10.2017.

      [10] Shanjun Li, Han Kyul Yoo, Molly Macauley, Karen Palmer Jhih-ShyangShih (2015) Assessing the role of renewable energy policies in landfill gas to energy projects, Energy Economics, 49, 687-697. https://doi.org/10.1016/j.eneco.2015.03.022

  • Downloads

  • How to Cite

    Sivitska, S., Vartsaba, V., & Filonych, O. (2018). Buildings Energy-Efficient Renovation Investment. International Journal of Engineering & Technology, 7(3.2), 408-412. https://doi.org/10.14419/ijet.v7i3.2.14562

    Received date: 2018-06-23

    Accepted date: 2018-06-23

    Published date: 2018-06-20