Possibilities of regeneration of filter partitions

Authors

  • А. Luhovskyi Igor Sikorsky Kyiv Polytechnic Institute, Kyiv
  • A. Zilinskyi Igor Sikorsky Kyiv Polytechnic Institute, Kyiv
  • A. Shulha Igor Sikorsky Kyiv Polytechnic Institute, Kyiv
  • I. Gryshko Igor Sikorsky Kyiv Polytechnic Institute, Kyiv

DOI:

https://doi.org/10.20535/2521-1943.2020.89.211225

Keywords:

filter, filter partition, regeneration, ultrasonic cavitation

Abstract

The article analyzes the methods of regeneration of the filter partition of hydraulic systems, shows their advantages and disadvantages. The most effective ways to restore the filtering capacity of the porous partition, using the effects that accompany the phenomenon of ultrasonic cavitation. This method provides cleaning of contaminated pores of the filter partition with a diameter of several micrometers, which allows to expand the range of its application in modern technological processes that place high demands on the purity of the working fluid to increase the reliability and durability of equipment.

References

Blyankman, L.M, Ponomarev, V.G. and Smirnova N.L. (1982), Ochistka fil'truyushchikh materialov [Cleaning filter media], 2 nd ed., Energoizdat, Moscow, Russia.

Beljanin, P.N. and Chernenko, Zh.S. (1964), Aviacionnye fil'try i ochistiteli gidravlicheskih system [Aviation filters and purifiers of hydraulic systems], Mashinostroenie, Moscow, Russia.

Berestyuk, G.I. (1978), Regeneratsiya fil'trov dlya razdeleniya suspenzii [Regeneration of filters for separation of suspensions]. Khimiya, Moscow, Russia.

Konovalov, V.M., Skritskii, V.Ya. and Rokshevskii, V.A. (1976), Ochistka rabochikh zhidkostei v gidroprivodakh stankov [Hydraulic fluid cleaning in machine tools], Mashinostroenie, Moscow, Russia.

Stelmakh, I.V. (2008), “Automation of the filter cleaning process for machine hydraulic drives based on an electro-hydraulic pulse device”, Vestnik saratov state technical university, vol. 30, no. 1, pp. 62–67.

Fridman, V.M. (1967), Ul'trazvukovaya khimicheskaya apparatura [Ultrasonic chemical equipment], Mashinostroenie, Moscow, Russia.

Komarov, V.M. (1989), Ustroistvo dlya promyvki fil'troelementa [Filter element flushing device], SSSR, Pat 1519755.

Lugovskyi, A.F. and Chuhraev, N.V. (2007), Ul'trazvukovaja kavitacija v sovremennyh tehnologijah [Ultrasonic cavitation in modern technologies], Vidavnicho–polіgrafіchnij centr «Kiїvs'kij unіversitet», Kiev, Ukraine.

Epojan, S.M., Sukhorukov, D.Gh. and Ajrapetjan, T.S. (2015), Sposib reghenraciji porystykh pereghorodok ghoryzontaljnogho vidstijnyka [Method of regeneration of porous partitions of horizontal settler], Ukraine, Pat. 95962.

Solodkyj, O.D. and Solodkyj, V.O. (2016), Baghatostupenevyj konusnyj truboprovidnyj filjtr-separator [Multistage conical pipeline filter-separator], Ukraine, Pat. 111202.

Panteljat, Gh.S., Syrovatsjkyj, A.A. and Эpojan, T.S. (2004), Sposib regheneraciji kationitovykh filjtriv z podaljshoju obrobkoju regheneratu [The method of regeneration of cation exchange resins with subsequent processing of the regenerate], Ukraine, Pat. 64055.

Syrotynsjkyj, O.A., Bilokonj, S.O., Naumenko, I.I. and dr. (2002), Vibracijnyj filjtr [Vibration filter], Ukraine, Pat. 43993.

Osipov, Yu.I., Ermakov, V.A. and Bondarik, V.V. (1992), Ustroistvo dlya ochistki fil'trov [Filter Cleaner], SSSR, Pat. 1124487.

Khasanov, M.M. (2010), Ezhektorno-ul'trazvukovoi sposob ochistki

Published

2020-09-01

Issue

Section

Mechanics