The use of modern energy-saving technologies for the maintenance of funds of military towns
Abstract
Purpose: is conduct with the aim of studying the possibilities and effectiveness of using modern energy-saving technologies for the maintenance of military campus funds.
Method: theoretical and analytical. A review of previous studies, identification of key topics and problems, analysis of available data, formulation of conclusions and recommendations were used.
Findings: The study showed that the use of modern energy-saving technologies can significantly reduce energy consumption on military campuses, resulting in cost savings and reduced greenhouse gas emissions. A number of energy-efficient technologies have been identified that can be effectively implemented in military campuses, such as insulating walls and roofs, replacing windows and doors, modernizing heating and lighting systems, and using renewable energy sources.
Theoretical implications: allows you to systematically study the key aspects of energy-saving technologies in military towns, outline the advantages, as well as challenges in modern living conditions in Ukraine.
Practical implications: the results of the research can be used to develop strategies and programs for the introduction of energy-saving technologies in military campuses. This can lead to significant cost savings, reduced environmental impact, and improved living conditions for military camp residents.
Value: the study is based on a comprehensive analysis of literature, statistical data and expert opinions, which makes it a valuable source of information on energy efficiency in military campuses.
Future research: Further research can be focused on overcoming possible challenges in the use of energy-saving technologies in military towns in the conditions of war in Ukraine.
Paper type: Theoretical, conceptual.
Downloads
References
On the approval of the Regulation on the organization of housing and operational support of the Armed Forces of Ukraine: Order of the Ministry of Defense of Ukraine dated 03.07.2013, No. 448. Retrieved from: https://zakon.rada.gov.ua/laws/show/z1590–13#Text. [in Ukrainian].
Vozniuk, M. (2015). Regional investment policy of energy saving: monograph; National Academy of Sciences of Ukraine, Institute of the Region. research named after E. Dolishnyi, Lviv, 2015. 413 c.
Derevyanko D. & etc. (2021). Peculiarities of determining the economic indicators of the feasibility of implementing measures to improve energy efficiency. Energy: economy, technologies, ecology, 2, 87–94.
Derevyanko, D. & etc. (2022). Prospects for the use of renewable energy sources for heating public and residential buildings in Ukraine. Energy: economy, technologies, ecology, 2. 41–47.
Karzhinerova, T. (2019). Energy-saving technologies in Ukraine. Scientific bulletin of construction. Construction series, vol. 2, 2 (96), 221–226. https://doi.org/10.29295/2311-7257-2019-96-2-221-226.
Karzhinerova, T. (2019) Development of alternative energy in Ukraine. Scientific bulletin of construction, (1) 95, 137–141. https://doi.org/10.29295/2311-7257-2019-95-1-137-141.
Oliynyk, Yu. (2022). Analysis of the use of energy-saving technologies. Academic notes of TNU named after V. I. Vernadskyi. Series: Technical sciences, 4, Vol. 33 (72), 167–171. https://doi.org/10.29295/2311-7257-2019-95-1-137-141.
Palienko, Ya., & Kasatkina, I. (2023). Modern energy-saving technologies. Youth: science and innovation: materials of the 11th International scientific and technical conference of students, postgraduates and young scientists, Nov. 22–24, Dnipro: National Technical University of Ukraine, Vol. 1, 398. Retrieved from: http://ir.nmu.org.ua/handle/123456789/165509.
Frolov, O., Bulgakov, R., Kushnaryova, G., & Rabocha, T. (2024) Implementation of innovative technologies in the heat supply systems of military towns to increase their efficiency and reliability. Social Development and Security, Vol. 14, #2. 44–51. https://doi.org/10.33445/sds.2024.14.2.5.
Khmara, V., & Koshova, S. (2023). The use of energy-saving technologies as a mechanism for increasing the level of economic security in the cities of Ukraine. Public administration: concepts, paradigm, development, improvement, 5, 141–149. https://doi.org/10.31470/2786-6246-2023-5-141-149.
Khmara, V., & Palagusynets, R. (2024). Analysis of the current state of implementation of energy-saving technologies in selected cities of Ukraine. Successes and achievements in science. Management and Administration Series, 1, 202–211. https://doi.org/10.52058/3041-1254-2024-1(1)-202-211.
Alternative energy. Retrieved from: https://saee.gov.ua/uk/ae
Granatova K. Power outage: what the situation will be in the summer and what to expect in the winter. Retrieved from: https:///current/vidklyuchennya-svitla-yaka-situatsiya-bude-vlitku-ta-chogo-chekati-vzimku
Infographics. Ukrainian Energetic. Retrieved from: https://ua-energy.org/uk/posts/import-elektroenerhii-ukrainoiu-mynuloho-tyzhnia-siahnuv-rekordnoho-rivnia
Brambilla, A., Salvalai, G., Imperadori, M., & Sesana M. (2018). Nearly zero energy building renovation: from energy efficiency to environmental efficiency, a pilot case study. Energy Build, 166, 271–283. https://doi.org/10.1016/j.enbuild.2018.02.002.
Bulhakov, R., Rabocha, T., Frolov, O., & Ventsyuk, A. (2023). Peculiarities of thermomodernization of the heating system of military infrastructure complexes. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 2, 84–90. https://doi.org/10.33271/nvngu/2023-2/084.
Rabocha, T., Maslii, O., Robochyi, V., Frolov, O., & Pizintsali, L. (2023). Ukraine’s energy supply in the defense sector: The first lessons of war. Sustainable Engineering and Innovation Original Research, 2, 219–246. https://doi.org/10.37868/sei.vi.id236.
Fatma, S., Hafez, & etc. (2023). Energy Efficiency in Sustainable Buildings: A Systematic Review with Taxonomy, Challenges, Motivations, Methodological Aspects, Recommendations, and Pathways for Future Research. Energy Strategy Reviews, 45, 1–30. https://doi.org/10.1016/j.esr.2022.101013.
Robyn, D., & Marqusee, J. (2019). The Clean Energy Dividend: Military Investment in Energy Technology and What It Means for Civilian Energy Innovation. Information Technology & Innovation Foundation, 1–57.
Samaras, C., Nuttall, W., & Bazilian, M. (2019). Energy and the military: Convergence of security, economic, and environmental decision-making. Energy Strategy Reviews, 26. https://doi.org/10.1016/j.esr.2019.100409.
Touš, M., Máša, V., & Vondra, M. (2021). Energy and water savings in military base camps. Energy Systems. https://doi.org/10.1007/s12667-019-00354-y.
Abstract views: 154 PDF Downloads: 104
Copyright (c) 2024 Tatiana Rabochaya, Ruslan Bulhakov, Victor Progulny, Dmytro Linnik, Oleksandr Frolov
This work is licensed under a Creative Commons Attribution 4.0 International License.
The authors agree with the following conditions:
1. Authors retain copyright and grant the journal right of first publication (Download agreement) with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgment of the work's authorship and initial publication in this journal.
2. Authors have the right to complete individual additional agreements for the non-exclusive spreading of the journal’s published version of the work (for example, to post work in the electronic repository of the institution or to publish it as part of a monograph), with the reference to the first publication of the work in this journal.
3. Journal’s politics allows and encourages the placement on the Internet (for example, in the repositories of institutions, personal websites, SSRN, ResearchGate, MPRA, SSOAR, etc.) manuscript of the work by the authors, before and during the process of viewing it by this journal, because it can lead to a productive research discussion and positively affect the efficiency and dynamics of citing the published work (see The Effect of Open Access).
