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Processing of metals by cutting under modern conditions becomes impossible without the use of effective cutting fluids. The main purpose of cutting fluids is cooling, lubrication of the workpiece processing area. Spent emulsion is a special type of wastewater, very dangerous to the environment, as it contains a large number of persistently emulsified petroleum products. The methods using various surfactants were tested for the cutting fluid disposal. The obtained results allowed proposing a general flow diagram of treatment of spent cutting fluids, as well as a block diagram of their purification. After processing the spent cutting fluids according to the proposed diagram, two products were obtained, namely water and sludge. This technology can be used in metalworking shops of railway enterprises, as well as the enterprises of machine-building, metallurgical and other industries where CF-effluents are formed within the wastewater complex. It will provide both an economic result through the reuse of water and will give a significant environmental effect by minimizing the amount of hazardous waste.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
207--212
Opis fizyczny
Bibliogr. 29 poz., rys.
Twórcy
autor
- Dnipro National University of Railway Transport named after Academician V. Lazaryan, 49033, Dnirpo, Ukraine
autor
- Dnipro National University of Railway Transport named after Academician V. Lazaryan, 49033, Dnirpo, Ukraine
autor
- Railway Research Institute, ul. Chłopickiego 50, 04-275 Warsaw, Poland
autor
- Dnipro National University of Railway Transport named after Academician V. Lazaryan, 49033, Dnirpo, Ukraine
Bibliografia
- 1. Pyza, D., Jacyna-Gołda, I., Gołda, P., Gołębiowski, P., 2018. Alternative Fuels and Their Impact on Reducing Pollution of the Natural Environment. Rocznik Ochrona Środowiska, Tom 20, cz. 1, 819–836.
- 2. Shokrani A., Dhokia V., Newman S.T., 2012. Environmentally conscious machining of difficult-to-machine materials with regard to cutting fluids. International Journal of Machine Tools & Manufacture, vol. 57, 83–101
- 3. Markisova, N.F., Grebenyuk, A.N., Basharin, V.A., 2013. Toxicology of petroleum products: [methodical manual]. St. Petersburg: Nevsky dialect, р. 128 (in Russian)
- 4. Jacyna, M., Wasiak, M., Lewczuk, K., Chamier-Gliszczyński, N., Dąbrowski, T., 2018. Decision Problems in Developing Proecological Transport System. Rocznik Ochrona Środowiska, Tom 20, cz. 2, 1007–1025
- 5. Zelenko, Y., Bezovska, M., 2019. Development of an environmentally friendly scheme for the recovery of used engine oils. New stages of development of modern science in Ukraine and EU countries. Monograph. 3rd ed. Riga, Latvia: “Baltija Publishing”: 143–164
- 6. Davydova, S. L., & Tagasov, V. I., 2002. Heavy metals as supertoxicants of the XXI century: [tutorial]. M.: RUDN Publ.H., p. 140 (in Russian)
- 7. Zelenko, Y., Bezovska, M., Leshchynska, A., Shnaiderman, A., 2019. Disposal of technological sludge of railway infrastructure enterprises. MATEC Web-Conferences 294, 02006
- 8. Fuks, I.G., Spirkin, V.G., Shabalina, T. N., 2004. Fundamentals of chemmotology. Chemmotology in the oil and gas business: [tutorial]. M .: FGUP Publishing house “Oil and Gas” of the Gubkin Russian State University of Oil and Gas, p. 280 (in Russian)
- 9. Okada M., Hosokawa A., Asakawa N., Ueda T., 2014. End milling of stainless steel and titanium alloy in an oil mist environment. The International Journal of Advanced Manufacturing Technology, vol. 74, no. 9–12, 1255–1266
- 10. Shapoval J.M., Kochubei V.V., Suberliak O.V., Poliuzhyn I.P., Kozak M.B., 2014. Development and study of the properties of cutting fluids based on polyvinylpyrrolidone and polyacrylamide. Chemistry, technology of substances and their application. Series of Chemistry, Materials Technology and their Application, vol. 787, 469–474 (in Ukrainian)
- 11. Zelenko, Yu., Myamlin, S., Sandovskiy, M., 2014. Scientific foundation of management of the environmental safety of oil product turnover in railway transport. D.: Lithograph Publishing House, p. 332
- 12. Peter Giraltoš, Dušan Maga, Victor Klekovkin, 2007. Ecological aspects of cutting fluids & minimization of the ecological impacts of cutting fluids Cybernetic Letters, Kopes
- 13. Zelenko, Yu. V., Tarasova, L. D., Bezovska, M. S., 2016. Increase of the level of ecological safety while handling the used motor oils of railway infrastructure: [monograph]. Dnipro: Lithograph Publ. H., p. 150 (in Ukrainian)
- 14. Choon-Man Lee, Young-Ho Choi, Jae-Hyeon Ha, Wan-Sik Woo, 2017. Eco-friendly technology for recycling of cutting fluids and metal chips: A review. International Journal of Precision Engineering and Manufacturing-Green Technology volume 4, 457–468
- 15. Najiha, M. S., Rahman, M. M., Yusoff, A. R., 2016. Environmental Impacts and Hazards Associated with Metal Working Fluids and Recent Advances in the Sustainable Systems: A Review. Renewable and Sustainable Energy Reviews, Vol. 60, 1008–1031
- 16. Yuliia Zelenko, Maryna Bezovska, Valeriy Kuznetsov, Antonina Muntian, 2020. Resource Saving and Eco-Friendly Technology for Disposal of Used Railroad Engine Oils. Rocznik ochrona środowiska (Annual Set The Environment Protection) 22, 171–180
- 17. Marián Schwarz, Miroslav Dado, Richard Hnilica, Darina Veverková, 2015. Environmental and Health Aspects of Metalworking Fluid Use. Polish Journal of Environmental Studies 1, vol.24, 37–45
- 18. Zelen’ko, Y., Yaryshkina, L., 2008. Development of nature protection measures after emergency spills of oil products (WIT / Transactions on Ecology and the Environment), 109, 243–247
- 19. Rushikesh Waydande, Dayanand Ghatge, 2016. Performance Evaluation of Different Types of Cutting fluids in the Machining of hardened steel – a Review; International Journal of Mechanical and Production Engineering, 4(3), 34–39
- 20. Zelenko Yu, Lunys O, Neduzha L and Steišūnas S, 2019. The assessment of negative impact of oil products on railroad track and rolling stock constructions Proc. of the 23rd Intern. Sci. Conf. Transport Means 2019 pt III (Palanga, Lithuania: Kaunas Univ. of Technology), 1300–1306
- 21. Mirer F. E., 2010. New Evidence on the Health Hazards and Control of Metalworking Fluids Since Completion of the OSHA Advisory Committee Report. Am. J. Ind. Med. 53, 792
- 22. Zelenko Y, Malovanyy M and Tarasova L, 2019. Optimization of heat-and-power plants water purification Chemistry and Chemical Technology, 13(2), 218–223
- 23. Boughton, B., Horvath, A., 2004. “Environmental assessment of waste oil management methods” Environ. Sci. Technol., 38, 353–358
- 24. Gordon T., 2004. Metalworking fluid–the toxicity of a complex mixture. J. Toxicol. Environ. Health A 67(3), 209–219
- 25. Samarska, A., Zelenko, Y., Kovrov, O., 2020. Investigation of Heavy Metal Sources on Railways: Ballast Layer and Herbicides Journal of Ecological Engineering, 21(8), 32–46
- 26. Dado M., Schwarz M., Hnilica R., 2013. Metalworking Fluid Mist Characterization for the Turning Process: a Preliminary Study. 7th Annual International Conference 2013: Manufacturing Systems Today and Tomorrow. Technical University of Liberec
- 27. Muszyński A., Łebkowska M., 2005. Biodegradation of Used Metalworking Fluids in Wastewater Treatment. Polish Journal of Environmental Studies, 14(1), 73–79
- 28. Skerlos S.J., 2013. Cutting Fluids and Their Environmental Impact. Encyclopedia of Tribology, 655–60
- 29. Zelenko Yu., Bezovska M., Skvireckas R., Neduzha L., 2020. The Impact of Motor Oils Quality on Improving the Reliability in Operation of Traction Rolling Stock. Proceedings of the 24th International Scientific Conference ‘Transport Means 2020’ Sustainability: Research and Solutions (Part II), Sept. 30 – Oct. 02, 2020, Kaunas, Lithuania, 568–572.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2838caf3-b48e-4451-ba8c-ae49548104d0