TECHNOLOGIES AND EQUIPMENT FOR PRODUCTION BIODEGRADABLE GREASES
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Abstract
It is shown that it is advisable to create the biodegradable greases (the BG) on the basis of the mixture of the vegetable and mineral oils (the mixed dispersion medium) with the choice of the certain ratio between their content, as well as using the single or heterogeneous dispersed phases, based on a given level of the performance of the BG (the rheological and tribological properties) and the required transience of the biodegradation process of the product. At the same time the technological cycle of the obtaining of the greases should ensure the minimal influence of the high temperature and water on the vegetable component of the dispersion medium. For the purpose of the implement of this approach the producing method of the biodegradable soap greases has been applied, in which the alkaline component is introduced into the reaction mass not in the form of the traditionally used aqueous solution, but as the part of the oil suspension. This technological technique is illustrated by the example of the producing technologies of the BG on the calcium (the grease СОЛИДОЛ БИО), lithium-calcium (the grease OIMOL LC BIO) and complex calcium sulfonate (the grease OIMOL KSC BIO) thickeners. The rheological and tribological properties of the developed BG are at the level of their analogues made on the basis of mineral oil with the biodegradability of BG approximately 5.5 times higher. The technological equipment of laboratory (capacity 10 kg/cycle) and industrial (capacity 200 and 2500 kg/cycle) types has been developed and manufactured. The distinctive feature of this equipment is the presence in it of the dispersing circuit connected to the circulation circuit via the bypass system and containing the hydrodynamic disperser that implements the cavitation effect with the possibility of the dispersing of the reaction mass components to the nanosized level. The industrial production of the BG on the thickeners of various types (calcium, lithium-calcium, complex calcium sulfonate, complex lithium) has been organized in accordance with the developed technologies.
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References
Derevyago, I.P. (2017). Koncepciya «zelenoj ekonomiki» i vozmozhnosti ee realizacii v usloviyah Respubliki Belarus' [Concept of «green economy» and the possibilities of its implementation in the conditions of the Republic of Belarus]. Belorusskij ekonomicheskij zhurnal [Belarusian Economic Journal], 1, 24–37. (In Russ., abstr. in Engl.).
Evdokimov, A.Yu., Fuks, I.G., & Lyubinin, I.A. (2012). Smazochnye materialy v tekhnosfere i biosfere: ekologicheskij aspect [Lubricants in the technosphere and biosphere: environmental aspect]. Kiev: Atika-N. (in Russ.).
Fessenbecker, A., Roehrs, I., & Pegnoglou, R. (1996). Additives for environmentally acceptable lubricant. NLGI Spokesman, 6(60), 9–25. (In Engl.).
Rhee, I. (2000). 21st century military biodegradable greases. NLGI Spocesman, 1(64), 8–17. (In Engl.).
Parenago, O.P., Safieva, R.Z., Antonov, S.V., & Stenina, N.D. (2017). Sostoyanie i perspektivy razvitiya proizvodstva biora-zlagaemyh plastichnyh smazok (obzor) [State and prospects for the development of the production of biodegradable plastic lubricants (review)]. Neftekhimiya [Petrochemistry], 6, 766–768. (in Russ.).
Zapol'skij, A.V. (2018). Biorazlagaemye smazochnye materialy – vazhnejshij produkt smazochnoj industrii budushchego [Biodegradable lubricants are the key to the lubricant industry of the future]. Novaya ekonomika [New Economy], 1, 226-229. (In Russ., abstr. in Engl.).
Dhorali, G., & Venkata, P.C. (2018). Vegetable Oil based Bio-lubricants and Transformer Fluids. Applications in Power Plants. East, Singapore: Springer Nature Singapore Pte Ltd. (In Engl.).
Kato, N. (1999). Lubrication life of biodegradable greases with rapeseed oil base. Lubrication Engineering, 8(55), 19–25. (In Engl.).
Gnanasekaran, D., & Chavadi, V.P. (2018). Vegetable Oil based Biolubricants and Transformer Fluids: Applications in Power Plants. Springer Nature Pte. Ltd. (In Engl.).
Ermakov, S.F., Chmyhova, T.G., Timoshenko, A.V., & Shershnev, E.B. (2019). Tribologicheskie osobennosti ekologicheski chistyh smazochnyh kompozicij na osnove rapsovogo masla [Tribological features of environmentally friendly lubricating compositions based on rapeseed oil]. Trenie i iznos [Friction and wear], Vol. 40, 2, 245–252. (In Russ., abstr. in Engl.).
Ishchuk, Yu.L. (1996). Sostav struktura i svojstva plastichnyh smazok [Composition structure and properties of greases]. Kiev: Navukovaya dumka. (in Russ.).
O'Brien, R.D. (2007). Zhiry i masla. Proizvodstvo, sostav i svojstva, primenenie [Fats and oils. Production, composition and properties, application]. Saint-Petersburg: Professiya. (in Russ.).
Zhornik, V.I., Zapol'skij, A.V., & Ivahnik, A.V. (2021). Biorazlagaemye plastichnye smazki obshchetekhnicheskogo naznacheniya [Biodegradable greasess of general technical purpose]. Aktual'nye voprosy mashinovedeniya [Actual issues of machine science], 10, 295–301. (In Russ., abstr. in Engl.).
Zhornik, V.I., Ivahnik, A.V., Ivahnik, V.P., & Zapol'skij, A.V. (2018). Struktura i svojstva kompleksnoj sul'fonat kal'cievoj smazki [Structure and properties of complex calcium sulfonate lubricant]. Mekhanika mashin, mekhanizmov, materialov [Mechanics of machines, mechanisms, materials], 1(42), 44–50. (In Russ., abstr. in Engl.).
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