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DEVELOPMENTAL FEATURES OF NON-URBAN AREAS USING LOCAL PEAT RESOURCES IN A SUSTAINABLE WAY
Corresponding Author(s) : Alexander Semin
Humanities & Social Sciences Reviews,
Vol. 8 No. 5 (2020): September
The purpose of the study: The purpose of the study is to assess the regional potential of the territory enriched with peat resources and to develop strategic directions and mechanisms aimed at its further sustainable and competitive development.
The methodology: Methodology is based on a systematic analysis of socio-economic processes, the use of monographic studies, the use of abstract-logical, economic-statistical, computational-constructive, and expert research methods. The object of the research is the production and social infrastructure of out-of-town territories. The subject of the research is to identify patterns, trends, and features of the formation and functioning of the industrial and social infrastructure of the out-of-town territory.
Main findings: The use of new technological processes and equipment for the processing of peat and mineral raw materials was substantiated scientifically to obtain new composite materials for multipurpose applications. The features of the use of local peat resources in ensuring the development of out-of-town territories were investigated based on a set of scientific approaches. The feasibility and effectiveness of the application of project management for the natural and technogenic complex to ensure multi-criteria optimization of the production and social infrastructure were established.
Applications of this study: The results of this study were tested and implemented within the territory of the Khanty-Mansiysk Autonomous Okrug-Yugra, which made it possible to develop a strategy for the development of a cluster-type okrug and increase the efficiency of using local peat resources of extra-urban areas.
The novelty (originality) of this study lies in the fact that the conducted research enabled to identify new features of the use of local peat resources in ensuring sustainable development of out-of-town territories, and to develop a strategy of socio-economic development adequate to new challenges of the external environment.
Alexandrov, B. M., & Egoshina, O. S. (2016a). Calculation of reserves of a peat deposit taking into account the categories of peat raw materials. In N. V. Grevtseva & I. A. Koka (Eds.), Economic, environmental, and social problems of the mining industry in the Urals: Collection of scientific articles. UGGU Publishing House.
Alexandrov, B. M., & Egoshina, O. S. (2016b). Methodology for calculating peat reserves at a deposit for their use in agriculture. Agri-Food Policy of Russia, 11(59), 57–60.
Bentley, L. D., & Whitten, J. L. (2006). Systems analysis and design for the global enterprise. McGraw-Hill/Irwin.
Peat for fuel use, production (thousand metric tons) - for all countries. (2014, June 27). http://www.factfish.com/statistic/peat,%20production
Chernyavsky, T. A. (2010). The social and economic development of the Khanty-Mansiysk Region through the cluster approach. Russian Journal of Entrepreneurship, 7-2, 162–168.
de Jong, J., and Stremke, S. (2020). Evolution of energy landscapes: A regional case study in the Western Netherlands. Sustainability, 12, 4554. https://doi.org/10.3390/su12114554
Druzhinina, O. G. (1998). Development of algorithms and models for the energy-ecological analysis of technological processes and assessment of energy consumption by the example of metallurgical technologies [Candidate dissertation].
Ermolaev, D. V., Timofeeva, S. S., Islamova, S. I., Bulygina, K. S., & Gilfanov, M. F. (2019). A comprehensive study of thermotechnical and thermogravimetric properties of peat for power generation. Biomass Conversion and Biorefinery, 9, 767-774. https://doi.org/10.1007/s13399-019-00472-8
Galinovskaya, E., & Khludeneva, N. (2012). Problems of the effectiveness of legal regulation of the extraction and use of peat. Economy and Law, 1(420), 43–49.
Gamayunov, S. N., Misnikov, O. S., & Pukhova, O. V. (1999). Perspective directions of use of products based on granular peat. Mining Journal, 10, 41–44.
Gorbunov, A. V. (2013). Development and substantiation of technology for extrusion briquetting of peat and technogenic raw materials [Candidate dissertation].
GOST R 54097-2010 “Resource saving. Best available technology. Identification methodology”. (2010, November 30). http://docs.cntd.ru/document/1200085351
Grevtsev, N. V. (1998). Scientific bases of technology of peat composite materials [Doctoral dissertation].
Grevtsev, N. V., Tyabotov, I. A., & Gorbunov, A. V. (2010). Substantiation of energy-technological methods of ensuring the specified quality of peat composite materials. News of higher educational institutions. Mining Journal, 7, 123–131.
Grevtsev, N. V., Tyabotov, I. A., & Oleinikova, L. N. (2017). Prospects for the use of molded peat substrates in crop production. Agri-Food Policy of Russia, 2(62), 57–60.
Hall, A. D. (1975). Experience in methodology for systems engineering. Soviet Radio.
Ilyinsky, A. V., Kireicheva, L. V., & Vinogradov, D. V. (2016). Bioremediation of soils contaminated with oil products using carbonate sapropel and the biological product "Naftoks". Bulletin of the Ryazan State Agrotechnological University named after P. A. Kostychev, 2(30), 9–13.
Ilyinsky, A. V. Vinogradov, D. V., & Balabko, P. N. (2015). Some aspects of substantiating the integrated control system when carrying out measures for the rehabilitation of technogenically contaminated lands. Bulletin of the Ryazan State Agrotechnological University named after P. A. Kostychev, 4(28), 10–15.
Karavajkov, V. M., Podkopaeva, N. R., & Fedorova, A. S. (2012). Methods and directions of the solution of a problem of the use of peat, as a renewed local power resource in the region. Regional Economics: Theory and Practice, 10(5), 30–36. https://www.fin-izdat.com/journal/region/detail.php?ID=48130
Kashinskaya, T. Ya., Gavrilchik, A. P., & Ageichik, I. V. (2011). On the question of choosing environmentally compatible technologies for the development of peat deposits. Institute of Nature Management of the National Academy of Sciences of Belarus.
Kireicheva, L. V., Nefedov, A. V., Evsenkin, K. N., Ilyinsky, A. V., Vinogradov, D. V., & Ivannikova, N. A. (2016). The rationale for the use of a fertilizer-reclamation mixture based on peat and sapropel to increase the fertility of degraded soils. Bulletin of the Ryazan State Agrotechnological University named after P. A. Kostychev, 3(31), 12–17.
Kislitsky M. M. (2018). Development and justification of the application of the method of complex scientific and methodological assessment of socio-economic relations in the development of management decisions. Agri-Food Policy of Russia, 5, 17–21.
Kopanitsa, N., Kudyakov, A., Kovaleva, M., & Kopanitsa, G. (2015). System approach to peat raw materials for the production of building materials. IOP Conference Series: Materials Science and Engineering, 71(1), 012011. https://doi.org/10.1088/1757-899X/71/1/012011
Kosov, V. I. (1991). System principles for the development of resource-saving technologies in peat production [Doctoral dissertation].
Kosov, V. I., & Bazhenova, E. V. (2001). Study of wastewater treatment from heavy metal ions using modifications of peat sorbents. Water and Ecology: Problems and Solutions, 1(6), 40–46.
Kulpina, K., Bereznev, S., Golofastova, N, & Muromtseva, A. (2020). Economy clustering as efficiency increase for resource usage in key areas of sustainable social and economic development in Kuzbass. E3S Web of Conferences, 174, 04060. https://doi.org/10.1051/e3sconf/202017404060
Lisienko, V. G., Druzhinina, O. G., & Morozova, V. A. (1999). Method of through energy and ecological analysis of energy-intensive technological facilities. Steel in Translation, 29(9), 82–87.
Mesarovich, M., & Takaraha, J. (1978). The general theory of systems: mathematical foundations. Peace. http://www.sci.aha.ru/ots/doc/book026.pdf
Misnikov, O. S., Chertkova, E. U., & Dmitriev, O. V. (2015). Use of peat ingredients for the production of fire-extinguishing powders. Eurasian Mining, 2, 30-34. https://doi.org/10.17580/em.2015.02.08
Moiseev, N. N. (1981). Mathematical problems in systems analysis. Science.
Nikitina, E. I. (2017). Peat from the south of Western Siberia: directions of use. Modern Trends in Science and Technology, 3-2, 75–77.
Ostreykovsky, V. A. (1997). Systems theory. Higher School.
Plakitkina, L. S., & Apukhtin, P. A. (2011). Peat production in Russia and worldwide: Analysis of the peat industry in Russia and worldwide in 2000-2009. Mining Industry, 1(95), 4–13. https://mining-media.ru/en/articles/articleen/2143-peat-production-in-russia-and-worldwide-analysis-of-the-peat-industry-in-russia-and-worldwide-in-2000-2009
Porter, M. (2005). Competition. Williams Publishing House.
Postaljuk, T. M. (2013). Cluster form of network organization of the Russian economy (Russia, Kazan’). Problems of Modern Economics, 1(45), 297–301. http://www.m-economy.ru/art_e.php?nArtId=4499
Prokopyev, A. V. (2013). Formation of the cluster system as a first-priority area of the innovative development of the Khanty-Mansi Autonomous Area – Yugra. Theory and Practice of Social Development, 12, 113. http://teoria-practica.ru/rus/files/arhiv_zhurnala/2013/12/ekonomika/prokopyev.pdf
Pyankova, S. G. (2015). Theory and methodology of systemic socio-economic development of single-industry territories based on institutional renewal [Doctoral dissertation].
Savin, K. S. (2013). Analysis of the problems of using peat deposits located near large settlements. Mining Information and Analytical Bulletin (Scientific and Technical Journal), S3-1, 396–401.
Semin, A. N. (2019). Territorial development of the region in the conditions of project management and cluster economy. ETAP: Economic Theory, Analysis, Practice, 3, 25–38. https://cyberleninka.ru/article/n/territorialnoe-razvitie-regiona-v-usloviyah-proektnogo-upravleniya-i-klasternoy-ekonomiki/viewer
Semin, A., Bukhtiyarova, T., & Stovba, E. (2020). The use of cluster and foresight technologies in the design of strategies for sustainable development of rural areas of the region. IOP Conference Series: Materials Science and Engineering, 753, 082007. https://doi.org/10.1088/1757-899X/753/8/082007
Semin, A., Grevtsev, N., & Egoshina, O. (2017). Systems approach in modeling production and consumption of peat products. Journal of Environmental Management and Tourism, VIII(5(21)), 961-971.
Shier, C. (2008). The co-firing challenge: the use of biomass in peat-fired generating stations in Ireland. After Wise Use - The Future of Peatlands, 1, 133–136.
Sorokin, R. N. (2015). Geotechnological substantiation of energy-efficient production and use of peat fuel [Candidate dissertation].
Stolbikova, G. E., Chertkova, E. Yu., & Ivanov, V. A. (2015). Peat extraction technology with the use of agricultural machinery. Mining Information and Analytical Bulletin (Scientific and Technical Journal), 8, 56–60. http://giab-online.ru/files/Data/2015/08/56-60_8_2015.pdf
Von Bertalanffy, L. (2017). The history and status of general systems theory. Academy of Management Journal, 15(4), 407-426. https://doi.org/10.5465/255139
Yashin, V. M., Evsenkin, K. N., Peregudov, S. V., & Nefedov, A. V. (2015). Research on the effectiveness of a new organometal fertilizer for increasing the fertility of degraded soils. In Ecological problems of using organic fertilizers in agriculture: materials of the conference (pp. 223–229). FBGNU VNIIOU.
Zharkova, E. S. (2011). Economic theories of production location: from standard to clusters. Bulletin of St. Petersburg State University, 5(1), 145–150.
Zyablitskaya, N. V. (2012). General description of the Khanty-Mansi Autonomous Area – Yugra. Theory and Practice of Social Development, 10, 299–302. http://teoria-practica.ru/rus/files/arhiv _zhurnala/2012/10/ekonomika/zyablitskaya.pdf