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ConcentrationEffect of SiliconeDefoamer with Trade NameBYK-037on Foam Destruction Ratefor Water Solution of Polyacrylamide and Sodium Laureth Sulfate

Lyubov Polyuzhyn1 lyuba_polyuzhyn [at] ukr.net
Kateryna Bura1 bura_1993 [at] mail.ua
Yosyf Shapoval1
Igor Polyuzhyn2 igor_polyuzhyn [at] ukr.net
  1. Chemical Technology of Plastic Processing Department, Lviv Polytechnic National University, Ukraine, Lviv, S. Bandery street 12
  2. Department of Analytical Chemistry, Lviv Polytechnic National University, Ukraine, Lviv, S. Bandery street 12
Abstract 

The influence of the concentration silikone defoamer with trade name BYK-037 on rate of the foam destruction for water solution of polyacrylamide and sodium laureth sulfate as anionic surfactant. An optimal concentration of the defoamer when the system is remained as virtually homogenous and sufficient effect of defoaming is provided.

Keywords 
defoamer
polyacrylamide
sodium laureth sulfate
aqueous solutions
References 

[1] Smazochno-ohlazhdajushhie tehnologicheskie sredstva dlja obrabotki metallov rezaniem: Spravochnik / Pod red. S.G. Jentelisa, Je.M. Berlinera. - Moskva: Mashinostroenie, 1986. - 352 s.

[2] Soshko A.I. Fiziko-himicheskaja mehanika obrabotki tverdyh tel v polimersoderzhashhih smazochnoohlazhdajushhih zhidkostjah – In book: Svojstva konstrukcionnyh materialov pri vozdejstvii rabochih sred. – Kiev: Naukova dumka, 1980. – P.332 – 339.

[3] Handbook of Lubrication and Tribology—Volume II: Theory and Design, Second Edition Edited by Robert W. Bruce, GE Aircraft Engines, Cincinnati, Ohio, USA Co-published by CRC Press (Taylor and Francis Group) and STLE, 2012, - 1160 p.

[4] Shapoval Y.M., Kochubei V.V., Suberliak O.V., Poliuzhyn I.P., Kozak M.B. Rozrobka ta doslidzhennia vlastyvostei mastylno-okholodzhuvalnykh ridyn na osnovi polivinilpirolidonu ta poliakrylamidu.– Visnyk Natsionalnoho universytetu "Lvivska politekhnika". Khimiia, tekhnolohiia rechovyn ta yikh zastosuvannia.- 2014.- № 787. - P.469-474.

[5] Shapoval Y.M., Poliuzhyn I.P., Kotsan M.P., Poliuzhyn L.I. Obhruntuvannia skladu tekhnolohichnykh mastylnookholodzhuvalnykh ridyn na osnovi poliakrylamidu. – Visnyk Natsionalnoho universytetu "Lvivska politekhnika". Khimiia, tekhnolohiia rechovyn ta yikh zastosuvannia.- 2015.- № 787. - P.23-35.

[6] Tihomirov V. K. Peny. Teorija i praktika ih poluchenija i razrushenija. 2-e izd., pererab. — Moskva: Himija, 1983. — 264 s

[7] Fedoseev K.G. Processy i apparaty biotehnologii v himiko-farmacevticheskoj promyshlennosti . Uchebnoe posobie dlja studentov tehnologicheskih fakul'tetov himiko-farmacevticheskih institutov.- Moskva «Medicina» -1969. – 200 s.

[8] Foam and Foam Films. Theory, Experiment, Application / Dotchi Exerowa and Pyotr M. Kruglyakov (Eds.) – Elsevier, 1998 – 773 p.

[9] Penoobrazovanie i penogashenie. Sovremennoe sostojanie problemy. / Kotel'nikova M.N., Alykov N.M. - Lambert Academic Publishing’s foundation (http://www.lap-publishing.com/), 2011. - 128 s.

[10] Abdolahi F., Moosavian M.A., Vatani A. The Mechanism Action Antifoams - Journal of Applied Sciences 5 (6), 2005. – P.1122-1129.

[11] Safety Data Sheet. BYK-037 Product code: 000000000000112484. - Version 4.0 SDB_GB Revision Date 26.02.2016. - Print Date 20.04.2016 (TDS_BYK- 037_EN.pdf, SDS_BYK-037_GB_en.pdf)

[12] Sulforokanol L270.1A_ENG.pdf - http://www.pccexol. eu/bazy/exol.nsf/products/en/Sulforokanol_L270-1A