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№ 2019/3
TIMCHENKO Oleksandr Mykolayovych1, NEBRAT Victorija Vasylivna2, LIR Victor Erikhovych3, BYKONIA Oleksandr Serhijovych4, DUBAS Yurij Volodymyrovych5
1State Institution \\"Institute for Economics and Forecasting, NAS of Ukraine\\"
2 State Institution \"Institute for Economics and Forecasting, NAS of Ukraine\"
3State Institution "Institute for Economics and Forecasting, NAS of Ukraine"
4State Institution "Institute for Economics and Forecasting, NAS of Ukraine"
5State Institution "Institute for Economics and Forecasting, NAS of Ukraine"
Organizational and economic determinants of digital energy development in Ukraine
| Economy and forecasting 2019; 3:59-75 | https://doi.org/10.15407/econforecast2019.03.059 |
ABSTRACT ▼
JEL: L 50, O 32, O 33, Q 49
| Article in English (pp. 59 - 75) | Download | Downloads :286 |
REFERENCES ▼
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5. Lir, V.E., Bykonia, O.S. (2018). Digital Monitoring of Energy Flows as a Priority of the Innovative Development of Energy Supply Systems. Stratehichni napriamy innovatsiinoho rozvytku ekonomiky krainy: perspektyvy ta efektyvnist' – Strategic Priorities of Innovative Development of a Country: Prospects and Efficiency, 19-22. Kiev: Analytical Center "New Economics" [in Ukrainian].
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9. Lir, V.E. (2016). Strategies for Sustainable Development as an Integration Priority in Ukraine-EU Relations. Naukovyi visnyk Odeskoho natsionalnoho ekonomichnoho universytetu – Scientific Bulletin of the Odessa National Economic University , 4, 158-176 [in Ukrainian].
10. Barannik, V.O. (2018). EU's Strategy for Energy Security as an Answer to Modern Hybrid Threats. National Institute for Strategic Studies. Retrieved from old2.niss.gov.ua/articles/2935/ [in Ukrainian].
11. Liashenko, V.I. & Vyshnevskyi, O.S. (2018). Digital Modernization of Ukrainian Economy as a Growth Opportunity. Institute of Industrial Economics, NAS of Ukraine. Kyiv [in Ukrainian].
12. Prakhovnyk, A.V., Tesyk, Yu.F., Zharkin, A.F., Novskyi, V.O., Hryb, O.H. (2012). Automatic Meter Systems in Wholesale Market. Kharkiv: Ranok-NT [in Ukrainian].
13. Prakhovnyk, A.V., Denysiuk, S.P., Kotsar, O.V. (2012). Principles for Coordination of Components in Smart Networks. Tekhnichna elektrodynamika – Technical Electrodynamics, 3, 51-62 [in Ukrainian].
14. Stohnii, B.S., Kyrylenko, O.V., Denysiuk, S.P. (2010). Smart Energy Networks and Their Technical Infrastructure. Tekhnichna elektrodynamika – Technical Electrodynamics, 6, 44-50 [in Ukrainian].
15. Stohnii, B.S., Kyrylenko, O.V., Prakhovnyk, A.V., Denysiuk, S.P. (2012). Evolution of Smart Energy Networks and Their Prospects in Ukraine. Tekhnichna elektrodynamika – Technical Electrodynamics, 5, 52-6. [in Ukrainian].
16. Smertenko, P., Chernyshev, L., Bilan, I., Solonin, Yu., Horokhovatska, M., Kulchytskyi, I., Kot, O., Boiko, N. (2014). Clusters and Technological Platforms as a Mechanism for Development of Ukrainian Economy. Visnyk NAN Ukrainy – Bulletin of the National Academy of Sciences of Ukraine, 3, 67-76 [in Ukrainian]/
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18. Fedirko, O.A. (2015). European Technological Platforms as a Mechanism for Sectoral Development in EU. Naukovyi visnyk Mizhnarodnoho humanitarnoho universytetu. Seriia: Ekonomika i menedzhment – Scientific Bulletin of the International Humanities University. Series: Economics and Management, 14, 34-38 [in Ukrainian].
19. Yermakova, O.A. (2015). Technological Platforms as an Important Instrument for Development of Innovative Environment in Regions. Ekonomika rozvytku – Economics of development, 4, 5-13 [in Ukrainian].
20. Statyvko, O.O. & Chorna, T.M. (2016). Technological Platforms and Their Role in National Economic Growth: Experience in EU and Ukraine. Technical and Ecological Security of Ukraine, 190–193. Irpin: UDFSU [in Ukrainian].
21. Plakitkin, Ju.A., Plakitkina, L.S. (2018). Digitalization of Economy in Coal Industry of Russia: from Industry 4.0 to Society 5.0. Mining Industry Journal, 4 (140), 22. doi.org/10.30686/1609-9192-2018-4-140-22-30 [in Russian].
22. Nikitenko, Ye.V., Ryndych, Ye.V. (2018). Instruments for Remote Monitoring of Sensor Data. Matematychni mashyny i systemy – Mathematical Machines and Systems,1, 51-58 [in Ukrainian] .
23. General Electric (2010). Top 10 nations for smart grid investment. Retrieved from www.reliableplant.com/Read/27393/Nations-smart-grid-investment
24. International Smart Grid Action Network (2019). Implementing Agreement for a Co-Operative Programme on Smart Grids: Annual Report 2018. Retrieved from www.iea-isgan.org/wp-content/uploads/2019/07/ISGAN-Annual-Report_2018_Web.pdf
25. Yaozhong, Xin, Junjie, Shi, Jingyang, Zhou (2015). Technology Development Trends of Smart Grid Dispatching and Control Systems. Automation of Electric Power Systems, 39(1), 2-8. Retrieved from dx.doi.org/10.7500/AEPS20141008024
26. Walton, R. (2016). 13 Years After: The Northeast Blackout of 2003 Changed Grid Industry, Still Causes Fear for Future. Powergrid International. Retrieved from www.elp.com/Electric-Light-Power-Newsletter/articles/2016/08/13-years-after-the-northeast-black-of-2003-changed-grid-industry-still-causes-fear-for-future.html
27. United States Congress (2007). Energy Independence and Security Act of 2007. United States Government Publishing Office. Retrieved from www.govinfo.gov/content/pkg/PLAW-110publ140/pdf/PLAW-110publ140.pdf
28. United States Department of Energy. (2018). Smart Grid System Report: 2018 Report to Congress. United States Department of Energy. Retrieved from www.energy.gov/sites/prod/files/2019/02/f59/Smart%20Grid%20System%20Report%20November%202018_1.pdf
29. European Union. (2012). Directive 2012/27/EU of the European Parliament and of the Council of 25 October 2012 on energy efficiency, amending Directives 2009/125/EC and 2010/30/EU and repealing Directives 2004/8/EC and 2006/32/EC. Official Journal of the European Union, L 315/1. Retrieved from data.europa.eu/eli/dir/2012/27/oj
30. European Union. (2009). Directive 2009/72/EC of the European Parliament and of the Council of 13 July 2009 concerning common rules for the internal market in electricity and repealing Directive 2003/54/EC (Text with EEA relevance). Official Journal of the European Union, L 211/55. Retrieved from data.europa.eu/eli/dir/2009/72/oj
31. Komelina, O.V., Fidria, V.V. (2017). Organizational and Economic Basis for Development of Industry-Wide Technological Platforms: European Perspective. Ekonomika i rehion – Economy and region, 6, 85-90 [in Ukrainian].
32. Development of Technology Platforms (2005, February). Retrieved from ftp://ftp.cordis.europa.eu/pub/etp/docs/etp4threport_en.pdf
33. Third STATUS REPORT: At the Launch of FP7 (2007, March). Retrieved from www.eurosfaire.prd.fr/7pc/doc/1176391945_etp3rd_report_en.pdf
34. Strategic Research Agenda for Europe's Electricity Networks of the Future (2007). Office for Official Publications of the European Communities. Retrieved from publications.europa.eu/en/publication-detail/-/publication/fe6d8afe-ed43-404a-b6c5-1c61da261cfc
2. Egorov, I.Yu. (Ed.) (2018). Digital Technologies in the Innovative Transformation of economy of Ukraine. Institute for Economics and Forecasting, NAS of Ukraine. Kyiv [in Ukrainian].
3. Timchenko, O.M., Lir, V.E. (2018). Digital Monitoring as Mechanism for Developing Energy Balance of National Economy. Skhid – East, 1, 23-29. doi.org/10.21847/1728-9343.2018.1(153).127160 [in Ukrainian].
4. Nebrat, V.V. (2018). Optimization of energy flows in the national economy by applying information and network systems. Informatsiini tekhnolohii v ekonomitsi, menedzhmenti ta biznesi. Problemy nauky, praktyky i osvity – Information technology in economics, management and business. Problems of science, practice and education , 84-87. Kyiv: Ed. of the European University [in Ukrainian].
5. Lir, V.E., Bykonia, O.S. (2018). Digital Monitoring of Energy Flows as a Priority of the Innovative Development of Energy Supply Systems. Stratehichni napriamy innovatsiinoho rozvytku ekonomiky krainy: perspektyvy ta efektyvnist' – Strategic Priorities of Innovative Development of a Country: Prospects and Efficiency, 19-22. Kiev: Analytical Center "New Economics" [in Ukrainian].
6. Lir, V.E. (2018). Imperatives and Determinants of Sustainable Growth. Institute for Economics and Forecasting, NAS of Ukraine. Kyiv [in Ukrainian].
7. Fyliuk, H. (2016). Problems and Decisions Regarding the Development of Ukrainian Energy Industry. Visnyk Kyivskoho natsionalnoho universytetu im. Tarasa Shevchenka. Ekonomika – Bulletin of the Kyiv National University. Taras Shevchenko. Economy, 4 (181), 6-11. doi.org/10.17721/1728-2667.2016/181-4/1 [in Ukrainian].
8. Pysar, N., Derhachova, V., Kyvliuk, O., Svyrydenko, D. (2018). Strategies for Development of Energy Market in Ukraine with the Geopolitical Issues Considered. Naukovyi visnyk NHU – Scientific Bulletin of the National Mining University, 5, 148-154. doi.org/10.29202/nvngu/2018-5/20 [in Ukrainian].
9. Lir, V.E. (2016). Strategies for Sustainable Development as an Integration Priority in Ukraine-EU Relations. Naukovyi visnyk Odeskoho natsionalnoho ekonomichnoho universytetu – Scientific Bulletin of the Odessa National Economic University , 4, 158-176 [in Ukrainian].
10. Barannik, V.O. (2018). EU's Strategy for Energy Security as an Answer to Modern Hybrid Threats. National Institute for Strategic Studies. Retrieved from old2.niss.gov.ua/articles/2935/ [in Ukrainian].
11. Liashenko, V.I. & Vyshnevskyi, O.S. (2018). Digital Modernization of Ukrainian Economy as a Growth Opportunity. Institute of Industrial Economics, NAS of Ukraine. Kyiv [in Ukrainian].
12. Prakhovnyk, A.V., Tesyk, Yu.F., Zharkin, A.F., Novskyi, V.O., Hryb, O.H. (2012). Automatic Meter Systems in Wholesale Market. Kharkiv: Ranok-NT [in Ukrainian].
13. Prakhovnyk, A.V., Denysiuk, S.P., Kotsar, O.V. (2012). Principles for Coordination of Components in Smart Networks. Tekhnichna elektrodynamika – Technical Electrodynamics, 3, 51-62 [in Ukrainian].
14. Stohnii, B.S., Kyrylenko, O.V., Denysiuk, S.P. (2010). Smart Energy Networks and Their Technical Infrastructure. Tekhnichna elektrodynamika – Technical Electrodynamics, 6, 44-50 [in Ukrainian].
15. Stohnii, B.S., Kyrylenko, O.V., Prakhovnyk, A.V., Denysiuk, S.P. (2012). Evolution of Smart Energy Networks and Their Prospects in Ukraine. Tekhnichna elektrodynamika – Technical Electrodynamics, 5, 52-6. [in Ukrainian].
16. Smertenko, P., Chernyshev, L., Bilan, I., Solonin, Yu., Horokhovatska, M., Kulchytskyi, I., Kot, O., Boiko, N. (2014). Clusters and Technological Platforms as a Mechanism for Development of Ukrainian Economy. Visnyk NAN Ukrainy – Bulletin of the National Academy of Sciences of Ukraine, 3, 67-76 [in Ukrainian]/
17. Zelinska, A.M. (2012). Technological Platforms as an Efficient Instrument of Innovative Development of Bioenergy. Innovatsiina ekonomika – Innovative economy, 4 (30), 36-41 [in Ukrainian].
18. Fedirko, O.A. (2015). European Technological Platforms as a Mechanism for Sectoral Development in EU. Naukovyi visnyk Mizhnarodnoho humanitarnoho universytetu. Seriia: Ekonomika i menedzhment – Scientific Bulletin of the International Humanities University. Series: Economics and Management, 14, 34-38 [in Ukrainian].
19. Yermakova, O.A. (2015). Technological Platforms as an Important Instrument for Development of Innovative Environment in Regions. Ekonomika rozvytku – Economics of development, 4, 5-13 [in Ukrainian].
20. Statyvko, O.O. & Chorna, T.M. (2016). Technological Platforms and Their Role in National Economic Growth: Experience in EU and Ukraine. Technical and Ecological Security of Ukraine, 190–193. Irpin: UDFSU [in Ukrainian].
21. Plakitkin, Ju.A., Plakitkina, L.S. (2018). Digitalization of Economy in Coal Industry of Russia: from Industry 4.0 to Society 5.0. Mining Industry Journal, 4 (140), 22. doi.org/10.30686/1609-9192-2018-4-140-22-30 [in Russian].
22. Nikitenko, Ye.V., Ryndych, Ye.V. (2018). Instruments for Remote Monitoring of Sensor Data. Matematychni mashyny i systemy – Mathematical Machines and Systems,1, 51-58 [in Ukrainian] .
23. General Electric (2010). Top 10 nations for smart grid investment. Retrieved from www.reliableplant.com/Read/27393/Nations-smart-grid-investment
24. International Smart Grid Action Network (2019). Implementing Agreement for a Co-Operative Programme on Smart Grids: Annual Report 2018. Retrieved from www.iea-isgan.org/wp-content/uploads/2019/07/ISGAN-Annual-Report_2018_Web.pdf
25. Yaozhong, Xin, Junjie, Shi, Jingyang, Zhou (2015). Technology Development Trends of Smart Grid Dispatching and Control Systems. Automation of Electric Power Systems, 39(1), 2-8. Retrieved from dx.doi.org/10.7500/AEPS20141008024
26. Walton, R. (2016). 13 Years After: The Northeast Blackout of 2003 Changed Grid Industry, Still Causes Fear for Future. Powergrid International. Retrieved from www.elp.com/Electric-Light-Power-Newsletter/articles/2016/08/13-years-after-the-northeast-black-of-2003-changed-grid-industry-still-causes-fear-for-future.html
27. United States Congress (2007). Energy Independence and Security Act of 2007. United States Government Publishing Office. Retrieved from www.govinfo.gov/content/pkg/PLAW-110publ140/pdf/PLAW-110publ140.pdf
28. United States Department of Energy. (2018). Smart Grid System Report: 2018 Report to Congress. United States Department of Energy. Retrieved from www.energy.gov/sites/prod/files/2019/02/f59/Smart%20Grid%20System%20Report%20November%202018_1.pdf
29. European Union. (2012). Directive 2012/27/EU of the European Parliament and of the Council of 25 October 2012 on energy efficiency, amending Directives 2009/125/EC and 2010/30/EU and repealing Directives 2004/8/EC and 2006/32/EC. Official Journal of the European Union, L 315/1. Retrieved from data.europa.eu/eli/dir/2012/27/oj
30. European Union. (2009). Directive 2009/72/EC of the European Parliament and of the Council of 13 July 2009 concerning common rules for the internal market in electricity and repealing Directive 2003/54/EC (Text with EEA relevance). Official Journal of the European Union, L 211/55. Retrieved from data.europa.eu/eli/dir/2009/72/oj
31. Komelina, O.V., Fidria, V.V. (2017). Organizational and Economic Basis for Development of Industry-Wide Technological Platforms: European Perspective. Ekonomika i rehion – Economy and region, 6, 85-90 [in Ukrainian].
32. Development of Technology Platforms (2005, February). Retrieved from ftp://ftp.cordis.europa.eu/pub/etp/docs/etp4threport_en.pdf
33. Third STATUS REPORT: At the Launch of FP7 (2007, March). Retrieved from www.eurosfaire.prd.fr/7pc/doc/1176391945_etp3rd_report_en.pdf
34. Strategic Research Agenda for Europe's Electricity Networks of the Future (2007). Office for Official Publications of the European Communities. Retrieved from publications.europa.eu/en/publication-detail/-/publication/fe6d8afe-ed43-404a-b6c5-1c61da261cfc
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