UDC 330:338.45:502.33; JEL O33, O14, Q57
Soldak, M. (2021). Promyslovi ekosystemy svitu: otsinka ekolohichnosti rozvytku [Industrial ecosystems of the world: assessment of ecological development]. In Sotsial'no-ekonomichni problemy suchasnoho periodu Ukrayiny [Socio-Economic Problems of the Modern Period of Ukraine]: Vol. 152 (6) (pp. 32-38). DOI: https://doi.org/10.36818/2071-4653-2021-6-5. [in Ukrainian].
Sources: 24

Authors



Soldak Myroslava Oleksiyivna

Ph.D. of Economics, Senior Researcher

Academic Secretary of the Institute of Industrial Economics of NAS of Ukraine

Contacts: soldak@nas.gov.ua

Webpages:

Resume

Sustainable development has become the mainstream of the global economy in recent years. It is focused on creating the mechanisms to ensure climate-neutral industrial growth through the use of advanced digital production technologies. Under the influence of modern technologies, the processes of formation and further development of industrial ecosystems are intensifying, which should be studied in ecological and technological contexts. The new climate agenda makes the determining of new perspectives and problems of industrial ecosystem development from the standpoint of a national industry increasingly relevant. The article presents an empirical analysis of the development of industrial ecosystems in 58 countries within two groups - countries with developed industry and countries with developing industry, based on the World Bank classification of countries and economies by level of industrialization. The methodological approach to assessing the environmental friendliness of industrial ecosystems has been improved by identifying the relationship between gross value added in industry and the efficiency of CO2 emissions in creating value in the manufacturing sector, the use of which allows establishing significant differences in achieving the goals of sustainable development between different countries in terms of industrial and technological development. The results of the study confirm the thesis on the active use of modern technologies in the field of environmental impact in countries with developed industries on the way to greater compliance of their industrial ecosystems with the principles of biological ones. Key issues are outlined and Ukraine's prospects for industrial growth based on sustainable development, along with a significant improvement in production technologies, are identified.

Keywords:

industrial ecosystem, technological development, technologies of advanced digital production, efficiency of CO2 emissions

References


1. Soldak, M. O. (2019). Promyslovi ekosystemy i tekhnolohichnyy rozvytok [Industrial ecosystems and technological development]. Ekonomika promyslovosti –Economy of industry, 4(88), 75-91. DOI: https://doi.org/10.15407/econindustry2019.04.075 [in Ukrainian].
2. A new Industrial Strategy for a globally competitive, green and digital Europe (2020). European Commission: Website. URL: https://ec.europa.eu/commission/presscorner/detail/en/fs_20_425
3. Nilsson, L. J., Åhman, M., Bauer, F., Ericsson, K., Johansson, B., van Sluisveld, M., & Schiro, D. (2020). A European industrial development policy for prosperity and zero emissions. Research Portal: Website. Retrieved from https://portal.research.lu.se/en/publications/a-european-industrial-development-policy-for-prosperity-and-zero-
4. Schwarz, M., Nakhle, C., & Knoeri, C. (2019). Innovative designs of building energy codes for building decarbonization and their implementation challenges. Journal of Cleaner Production, 248. DOI: https://doi.org/10.1016/j.jclepro.2019.119260
5. Andreoni, A. (2018). The architecture and dynamics of industrial ecosystems: diversification and innovative industrial renewal in Emilia Romagna. Cambridge Journal of Economics, 42(6), 1-30. DOI: https://doi.org/10.1093/cje/bey037
6. Forge, S., Blackman, C., Bohlin, E., & Cave, M. (2009). A Green Knowledge Society. An ICT policy agenda to 2015 for Europe’s future knowledge society. A study for the Ministry of Enterprise. Energy and Communications. Final Report. Brighton: SCF Associates Ltd.
7. Schot, J., & Steinmueller, W. E. (2018). Three frames for innovation policy: R&D, systems of innovation and transformative change. Research Policy, 47(9), 1554-1567.
8. Grillitsch, M., & Hansen, T. (2019). Green industry development in different types of regions. European Planning Studies, 27, 2163-2183.
9. Otchet o promyshlennom razvitii – 2016. UNIDO [Industrial Development Report – 2016. UNIDO] (2016). Ministry of Economy of Ukraine: Website. [in Russian].
10. Andreoni, A., & Anzolin, G. (2019). A Revolution in the Making? Challenges and Opportunities of Digital Production Technologies for Developing Countries. Vienna: UNIDO. Retrieved from https://www.unido.org/api/opentext/documents/download/16423347/unido-file-16423347
11. Otchet o promyshlennom razvitii – 2020 [Industrial Development Report – 2020] (2019) UNIDO: Website. Retrieved from https://www.unido.org/sites/default/files/files/2019-11/UNIDO_IDR2020-Russian_overview.pdf [in Russian].
12. Belton, P. (2021, Sep 08). The computer chip industry has a dirty climate secret. The Guardian: Website. Retrieved from https://www.theguardian.com
13. Edoja, P. E., Aye, G. C., & Abu, O. (2016). Dynamic relation among CO2 emission, agricultural productivity and food security in Nigeria. Cogent Economics and Finance, 4(1), 1-13. DOI: https://doi.org/10.1080/23322039.2016.1204809
14. Abbasi, F., & Riaz, K. (2016). CO2 emissions and financial development in an emerging economy: An augmented VAR approach. Energy Policy, 90, 102-114. DOI: https://doi.org/10.1016/j.enpol.2015.12.017
15. Liu, X., Li, X., Shi, H., Yan, Y., & Wen, X. (2021). Effect of economic growth on environmental quality: Evidence from tropical countries with different income levels. Science of the Total Environment, 774. DOI: https://doi.org/10.1016/j.scitotenv.2021.145180
16. Data (2020). The World Bank: Website. Retrieved from https://data.worldbank.org
17. Tutulmaz, O. (2015). Environmental Kuznets Curve time series application for Turkey: Why controversial results exist for similar models? Renewable and Sustainable Energy Reviews, 50, 73-81. DOI: https://doi.org/10.1016/j.rser.2015.04.184
18. Yandle, B., Vijayaraghavan, M., & Bhattarai, M. (2002). The Environmental Kuznets Curve: A Primer. The Property and Environment Research Center, 02-1. Retrieved from https://www.perc.org/wp-content/uploads/2018/05/environmental-kuznets-curve-primer.pdf
19. Alsayed, A. R. M., & Malik, A. (2020). Detecting the Environmental Kuznets Curve in African Countries. Studies in Economics and Econometrics, 44(1), 35-44, DOI: https://doi.org/10.1080/10800379.2020.12097355
20. Shankleman, J. (2020). Companies Start Paying Off ‘Carbon Debt’ to Erase Past Sins. Bloomberg: Website. Retrieved from https://www.bloomberg.com/businessweek
21. Ishchuk, S. O., & Sozanskyy, L. Yo. (2019). Vyklyky ta perspektyvy rozvytku khimichnoyi promyslovosti Ukrayiny [Challenges and prospects of the Ukrainian chemical industry]. Ekonomika promyslovosti – Economy of Industry, 1(85), 65-81. DOI: http://doi.org/10.15407/econindustry2019.01.065 [in Ukrainian].
22. Vishnevskyy, V. P. (Ed.) (2019). Smart-promyslovist’: napryamy stanovlennya, problem i rishennya [Smart industry: directly becoming, problems and solutions]. Kyiv: Institute of Industrial Economy of NASU. [in Ukrainian].
23. Zbarazska, L. O. (2020). Klyuchovi aktsenty poryadku dennoho promyslovoho rozvytku v Ukrayini [Key accents of agenda of industrial development in Ukraine]. Ekonomika promyslovosti – Economy of Industry, 4(92), 5-37. DOI: http://doi.org/10.15407/econindustry2020.04.005 [in Ukrainian].
24. Vyshnevskyy, V. P., Chekina, V. D., & Harkushenko, O. N., et al. (2018). Transformatsiynyy potentsial tsyfrovizatsiyi ekonomiky Ukrayiny [Transformational potential of digitalization of the Ukrainian economy]: Research report (final). Kyiv: Institute of Industrial Economy of NASU. [in Ukrainian].