STRATEGIES OF RUSSIA AND CHINA IN THE FIELD OF INDUSTRIAL ECOLOGY AND SUSTAINABLE DEVELOPMENT УДК: 338.2 JEL: F 01, O 57, Q 57
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Published:
Dec 4, 2024
Keywords:
industrial ecology, sustainable development, Russia, China, emissions, energy efficiency, environmental technologies, renewable energy sources, recycling, state regulation
Main Article Content
Olga N. Sokolova
Email: son-555@mail.ru
https://orcid.org/0000-0002-8148-614X
Abstract
The article is devoted to the analysis of the strategic directions of China and Russia regarding theimplementation of the concept of sustainable development. Particular attention is paid to the study of the processesof formation and implementation of environmental policies of countries as the basis for their economic sustainabilityin the future. The authors present the similarities and differences in the strategic decisions of the environmentalpolicies of Russia and China, and develop proposals for areas of cooperation in the field of sustainable development.
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How to Cite
Yanzhen C., Sokolova O. N. STRATEGIES OF RUSSIA AND CHINA IN THE FIELD OF INDUSTRIAL ECOLOGY AND SUSTAINABLE DEVELOPMENT // Управление современной организацией: опыт, проблемы и перспективы, 2024. Vol. 20, № 2. P. 14-22. URL: https://journal.asu.ru/mmo/article/view/16528.
Section
Методы и инструменты стратегического управления организацией
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Gyamfi B. A., Adedoyin F. F., Bein M. A., Bekun F. V., Agozie D. Q. The anthropogenic consequences of energy consumption
in E7 economies: Juxtaposing roles of renewable, coal, nuclear, oil and gas energy: Evidence from panel
quantile method. J. Clean., 2021:295.
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US: Lessons for Asian Regions. J. Contemp. East. Asia, 2020;19:59–83.
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perspective. Energy, 2021;233:121–179.
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combustion engines. Transp. Eng., 2020;1:100005.
Li L., Lei Y., Wu S., He C., Chen J., Yan D. Impacts of city size change and industrial structure change on CO2 emissions
in Chinese cities. J. Clean. Prod., 2018;195:831–838.
Li S., Zhao Y., Xiao W., Yue W., Wu T. Optimizing ecological security pattern in the coal resource-based city: A case
study in Shuozhou City, China. Ecol. Indic., 2021;130, p. 108026.
Liu Y., Zhou Y. Territory spatial planning and national governance system in China. Land Use Policy, 2021;102:105288.
Liu Z., Deng Z., Davis S. J., Giron C., Ciais P. Monitoring global carbon emissions in 2021. Nat. Rev. Earth Environ.,
2022;3:217–219.
Ma J., Zhang R., Li L., Liu Z., Sun J., Kong L., Liu X. Analysis of the Dust-Concentration Distribution Law in an Open-
Pit Mine and Its Influencing Factors. ACS Omega, 2022;7:43609–43620.
Qi H. Structural Analysis of China's Coal Supply and Demand and Research on Energy Conservation Issues. China
Collect. Econ., 2022;13:138–140.
Szima S., del Pozo C. A., Cloete S., Fogarasi S., Álvaro J., Cormos A.‑M., Cormos C.‑C., Amini S. Techno-economic
assessment of IGCC power plants using gas switching technology to minimize the energy penalty of CO2
capture. Clean Technol., 2021;3:594–617.
Tian X., Bai F., Jia J., Liu Y., Shi F. Realizing low-carbon development in a developing and industrializing region:
Impacts of industrial structure change on CO2 emissions in southwest China. J. Environ. Manag., 2019;233:728–
738.
Wang S., Li C., Zhou H. Impact of China's economic growth and energy consumption structure on atmospheric
pollutants: Based on a panel threshold model. J. Clean. Prod., 2019;236:117694.
Wang X., Liu C., Chen S., Chen L., Li K., Liu N. Impact of coal sector's de-capacity policy on coal price. Appl. Energy,
2020;265:.114802.
Wang Z., Li C., Liu Q., Niu B., Peng S., Deng L., Kang P., Zhang X. Pollution haven hypothesis of domestic trade
in China: A perspective of SO2 emissions. Sci. Total Environ., 2019;663:198–205.
Zheng H., Zhang Z., Wei W., Song M., Dietzenbacher E., Wang X., Meng J., Shan Y., Ou J., Guan D. Regional determinants
of China's consumption-based emissions in the economic transition. Environ. Res. Lett., 2020;15:074001.