Prospects of the Environmental Technologies Implementation in the Cement Industry in Russia

Peshkova, G.; Cherepovitsyn, A.; Tcvetkov, P.

doi:10.12911/22998993/64607

Artykuł - szczegóły

Tytuł artykułu

Prospects of the Environmental Technologies Implementation in the Cement Industry in Russia

Autorzy

Peshkova G. , Cherepovitsyn A. , Tcvetkov P.

Treść / Zawartość

Pełne teksty:

Pobierz

Identyfikatory

DOI

10.12911/22998993/64607

Warianty tytułu

Języki publikacji

Abstrakty

Russian cement industry is in decline. Enterprises operate on the basis of technologies developed in USSR. In this connection such fundamental issues of the enterprises functioning, as energy efficiency, environmental safety, resource-saving, resources provision and others, are overlooked. The paper attempts to define the priorities of the Russian cement industry development based on the experience of developed countries. The most promising technologies for the designated key areas were described and their benefits and drawbacks were identified. Due to the major role of the raw resources in Russian economy, the issues of increasing the efficiency of cement plants, should be discussed with considering the efficiency of mining enterprises extracting mineral raw materials needed for manufacturing process. Given the significant investments required to the industry modernization, which can not be achieved through government support, it is proposed to create conditions for the development of the integrated companies. In addition, a key factor that can ensure the sustainable development of the industry is a cross-sectoral co-operation, which will allow to organize a low-waste production cycle with a minimal costs of raw materials.

Słowa kluczowe

cement industry ecology limestone clay Russia cross-sectoral cooperation environmental technologies

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2016

Tom

Vol. 17, nr 4

Strony

17--24

Opis fizyczny

Bibliogr. 48 poz., tab., rys.

Twórcy

autor

Peshkova G.

pscvetkov@yandex.ru

Saint Petersburg State University of Aerospace Instrumentation, 67 Bolshaya Morskaia, 190000, Saint-Petersburg, Russia

autor

Cherepovitsyn A.

Saint Petersburg State University of Aerospace Instrumentation, 67 Bolshaya Morskaia, 190000, Saint-Petersburg, Russia

autor

Tcvetkov P.

Saint-Petersburg Mining University, 21st Vasilevsky Ostrov, Line 2, Saint Petersburg, 199106, Russia

Bibliografia

1. Aggregates Business Europe 2007. Alternatives to drilling and blasting. URL: http://www.aggbusiness.com/categories/breaking-drilling-blasting/ features/alternatives-to-drilling-and-blasting/ (17.05.2016).
2. BBT - Bureau of best available technologies 2015. Information-Technical Reference for the best available technologies. Cement Production. Federal Agency on Technical Regulating and Metrology, 2015. 305 p. URL: http://www.burondt.ru/NDT/ NDTDocsDetail.php?UrlId=494&etkstructure_ id=1872 (17.05.2016).
3. Bliss J.D., Hayes T.S., Orris G.J. 2008. Limestone - A Crucial and Versatile Industrial Mineral Commodity. USGS Fact Sheet 2008–3089. URL: https://pubs.usgs.gov/fs/2008/3089/fs2008-3089. pdf (17.05.2016).
4. Bratchikov N.V., Rubtsov I.V., Antipov D.A. 2012. The introduction of blast-free technology of extraction of hard rock in the Rostov region. Journal „Mining Industry” No. 2, p. 44 URL: http:// www.mining-media.ru/ru/article/ogr/2475-vnedrenie-bezvzryvnoj-tekhnologii-dobychi-krepkikh-gornykh-porod-v-rostovskoj-oblasti (17.05.2016).
5. Cherepovitsyn A., Ilinova A. 2016. Ecological, Economic and Social Issues of Implementing Carbon Dioxide Sequestration Technologies in the Oil and Gas Industry in Russia. Journal of Ecological Engineering, 17(2), 19–23. DOI: 10.12911/22998993/62281.
6. Cherepovitsyn A.E., Tsvetkov P.S. 2016. Methodical Approach to Evaluation of the Russian Peat Deposits Exploitation Attractiveness Based on Geology-Technological Criteria. International Journal of Applied Engineering Research, 11(7), 5072-5078.
7. ClimaTechWiki 2010. Energy Efficiency and Saving in the Cement Industry. Official website. URL: http://www.climatetechwiki.org/technology/energy-saving-cement (17.05.2016).
8. CM Pro 2010. Until 2017 the existing cement plants need to be upgraded or be forced to close. Official website. URL: http://cmpro.ru/rus/main/ issled/analitika/cemzavodclose.html (17.05.2016)
9. CM Pro 2016. SoyuzCement statistical data. URL: http://sdelanounas.ru/blogs/46357/ (17.05.2016).
10. Daniel P., Careddu N. 2011. Underground mining in perspective. Publicaciones Litos S.L., Spain URL: http://www.litosonline.com/en/articles/en/126/underground-mining-perspective (17.05.2016).
11. Didenko N., Kunze K., Skripnuk D. 2015. Russian Export Strategy and Social Sector: Consequences of Resource-Oriented Exports on Population of Russia. Mediterranean Journal of Social Sciences. 6(5). Suppl. 2, 473-481.
12. Didenko N., Skripnuk D. 2014. The impact of energy resources on social development in Russia. WIT Transactions on Ecology and the Environment, 190(1), 151-159.
13. Dvorkin L.I., Dvorkin O.L. 2011. Construction mineral binding materials. Infra Engineering. 544 p. URL: https://books.google.ru/books?id=EWuhBAA AQBAJ&printsec=copyright&hl=ru&source=gbs_ pub_info_r#v=onepage&q&f=false (17.05.2016).
14. Ermakov S.A., Hosoev E.V. 2013. Technology-ecological assessment of non-explosive development of overburden rocks and coals Elginskys field. International Journal of Applied and Basic Research No. 8. URL:http://cyberleninka.ru/ article/n/tehnologo-ekologicheskaya-otsenka-bezvzryvnoy-razrabotki-vskryshnyh-porod-i-ugley-elginskogo-mestorozhdeniya (17.05.2016).
15. Esterhuizen G.S., Dolinar D.R., Ellenberger J.L., Prosser L.J., Iannacchione A.T. 2008. Roof Stability Issues in Underground Limestone Mines in the United States. NIOSH-Pittsburgh Research Laboratory Pittsburgh, PA, USA. 8 p. URL: http://www. cdc.gov/niosh/mining/UserFiles/works/pdfs/rsiiu. pdf (17.05.2016).
16. FSS - Federal State Statistics Service of Russia (2016). Official website. URL: http://www.gks.ru (17.05.2016).
17. Guz V.A. 2015. Building materials industry. The main problems and prospects of development: The aging of fixed assets. Report during the working visit of Denis Manturov (the Minister of Industry and Trade) in the Krasnodar region. 13 p.
18. Habert G., Billard C., Rossi P., Chen C., Roussel N. 2010. Cement production technology improvement compared to factor 4 objectives. Cement and Concrete Research, 40, 820–826. DOI: 10.1016/j. cemconres.2009.09.031.
19. IEA and WBCSD 2009. Cement Technology Roadmap 2009. Carbon emissions reductions up to 2050. https://www.iea.org/publications/freepublications/publication/Cement.pdf (17.05.2016).
20. Imbabi M.S., Carrigan C., McKenna S. 2012. Trends and developments in green cement and concrete technology. International Journal of Sustainable Built Environment. 1(2), 194–216. DOI: 10.1016/j.ijsbe.2013.05.001.
21. Interfax information service (2016). Official website. URL: http://www.interfax.ru/business/433354 (17.05.2016).
22. Brito J., Saikia N. 2013. Recycled Aggregate in Concrete. Springer-Verlag London. 448 p. DOI: 10.1007/978-1-4471-4540-0.
23. Kasyanov P. Han D. 2009. Assessment of the Russian cement industry transition to the best available technologies. Interim Technical Report. European Communities, 2009. 42 p. URL: http://airgovernance.eu/pdf/Technical_Report_Evaluation_of_ costs_of_the_Russian_cement_industrys_transition_to_BAT_RU.pdf (17.05.2016).
24. Kozlov A., Gutman S., Zaychenko I., Rytova E., Nijinskaya P. 2015. Environmental management on the basis of complex regional indicators concept: case of the Murmansk region. IOP Conference Series: Materials Science and Engineering 6. Ser. „6th International Scientific Practical Conference on Innovative Technologies and Economics in Engineering”, 12-73.
25. Kurchin G.S., Volkov E.P., Zaytseva E.V., Kirsanov A.K. 2013. Environmental problems in the extraction of nonmetallic building materials in Russia. Modern problems of science and education. No. 6. URL: http://www.science-education.ru/ru/article/ view?id=10500 (17.05.2016).
26. Lashina V.V., Petrov A.I. 2013. An analysis of the environmental aspects of cement production in the Russian Federation. Mining Informational and Analytical Bulletin, No. 3, 390-393. URL: http:// www.giab-online.ru/files/Data/2013/3/390-393_ Lashina_-_4_str.pdf (17.05.2016).
27. Lu H., Masanet E., Price L. 2009. Evaluation of Life-Cycle Assessment Studies of Chinese Cement Production: Challenges and Opportunities. Proceedings of the 2009 ACEEE Summer Study on Energy Efficiency in Industry. 13 p. URL: https:// china.lbl.gov/sites/all/files/aceee-lca-cement-productionjuly-2009.pdf (17.05.2016).
28. Nazarenko N.V. 2011. Problems of land reclamation in the quarries of common minerals in the Belgorod region and ways of their solution. Problems of regional ecology. No. 2.
29. NCA - New Chemistry Analytics (2016). Official website. URL: http://newchemistry.ru/letter. php?n_id=1895 (17.05.2016).
30. Nikolaichuk L.A., Diakonova V.D. 2016. Current state and prospects of development of the market of gas motor fuel in Russia. Internet journal “Naukovedenie”, 8(2). DOI: 10.15862/106EVN216 (17.05.2016).
31. Nikolaichuk L.A., Tsvetkov P.S. 2016. Prospects of Ecological Technologies Development in the Russian OilIndustry. International Journal of Applied Engineering Research, 11(7), 5271-5276.
32. Parker J. 1996. Everybody goes underground eventually. Aggregate Manager, 6, 30–35.
33. Pivovarova I. 2015. Systematic Approach in Ecological Zoning. Journal of Engineering &Applied Sciences, 10(1), 11-15.
34. Potapov V., Yashina O., Borodenok D. 2013. Overview of the cement industry in the countries of the Customs Union. Ernst & Young (CIS) B.V. 28 p. URL: http://www.ey.com/Publication/vwLUAssets/EY-Cement-industry-in-Customs-Union-countries-Eng/$FILE/EY-Cement-industry-in- Customs-Union-countries-Eng.pdf (17.05.2016).
35. Pushkin K.G., Wiseman Y.I. 2013. Methodological approaches to development and identification of the best available technologies on through the example use of ferrous slags. Vestnik MGSU. No. 10, 183-195. URL: vestnikmgsu.ru/index.php/ru/ archive/article/download/1002 (17.05.2016).
36. Safronov V.P., Zaitsev Y.V., Safronov V.V. 2015. Efficiency of use of the equipment for realization of technologies of production limestones and dolomites without explosion. News of the Tula State University. Technical Sciences, No. 7. URL: http://cyberleninka. ru/article/n/effektivnost-ispolzovaniya-oborudovaniya-dlya-realizatsii-bezvzryvnyh-tehnologiy-dobychi-izvestnyakov-i-dolomitov (17.05.2016).
37. Sarkodie P.A., Kuffour C., Agyapong D. 2014. Environmental Impact of Clay Harvesting at Mpraeso Amanfrom in the Kwahu- West Municipal of the Eastern Region of Ghana. International journal of innovative research and development, 3(8), 40- 45. URL: http://www.academia.edu/10257976/ Environmental_Impacts_of_Clay_Harvesting (17.05.2016).
38. Tazhetdinova N.S. 2012. Geoecological assessment of the environmental impact of non-metallic building materials extraction in the Astrakhan region. PhD paper (dissertation). 145 p.
29. 39. Tcvetkov P., Cherepovitsyn A. 2016. Prospects of CCS Projects Implementation in Russia: Environmental Protection and Economic Opportunities. Journal of Ecological Engineering, 17(2), 24–32. DOI: 10.12911/22998993/62282.
40. Tcvetkov P., Strizhenok A., 2016. Ecological and economic efficiency of peat fast pyrolysis projects as an alternative source of raw energy resources. Journal of Ecological Engineering 17(1), 56-62. DOI: 10.12911/22998993/61190.
41. Techart Research 2010. Review of the Russian cement market. URL: http://www.techart.ru/files/publications/72.pdf (17.05.2016).
42. Teslya A., Cherepovitsyn A., Vyboldina E., Fedoseev S. and Kozmenko S. 2015. The Concept of Economic Growth of the Construction Industry in St. Petersburg. MATEC Web of Conferences, 53 () 01005 DOI: http://dx.doi.org/10.1051/matecconf/20165301005.
43. Volkov E.P., Kurchin G.S., Zaytseva E.V., Kirsanov A.K. 2013. Determination of the best configuration room-and-pillars for environmentally safe mining technology nonmetallic building materials. Modern problems of science and education. No. 5. URL: http://www.science-education.ru/ru/article/ view?id=10215 (17.05.2016).
44. Vysockiy E.V. 2013. Tendency and prospects of Russian cement market development. Construction Materials Journal, 66-69. URL: http://rifsm.ru/u/fl/ itm5722.pdf (17.05.2016)
45. Vysotsky E.V. 2014. Energy Efficiency Assessment of Russian cement plants. Industry Outlook. Report at the CemEnergy Conference, 6-8.
46. Worrell E., Kermeli K., Galitsky C. 2013. Energy Efficiency Improvement and Cost Saving Opportunities for Cement Making. An ENERGY STAR Guide for Energy and Plant Managers. Document Number 430-R-13-009. 142 p. URL: https://www. energystar.gov/sites/default/files/tools/ENERGY%20STAR%20Guide%20for%20the%20 Cement%20Industry%2027_08_2013_Rev%20 js%20reformat%2011192014.pdf (17.05.2016)
47. Yung Y.B., Sunwoo C., Chung S.K. 2007. Design and reliability of pillar performance for underground limestone mine in Korea. In: Ribeiro e Sousa, Olalla and Grossmann (Eds). 11th Congress of the International Society for Rock Mechanics, Taylor & Francis Group, London, 833-837.
48. Zarko V.I., Guz V.A., Kabanov A.A., Vysotsky E.V. 2011. Reserves base of secondary resources in the production of building materials. Journal “AlitInform” No. 2, 11-27.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-9125a91b-81af-47d2-b6d0-71892397c1d6