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Лаборатория
Полимерных мембран

Ведущая лаборатория в области разработки полимерных мембран
и процессов на их основе для разделения газов и жидких сред






Василевский Владимир Павлович


<< Назад
Василевский Владимир Павлович
Ведущий научный сотрудник (к.т.н.)

Год рождения: 1947

ORCID: 0000-0002-3837-6930
ResearcherID: J-8007-2014
Scopus Author ID: 55558082600
SPIN: 8279-6053



Образование
  • 1965-1970 – Специальность Радиотехника, Московский авиационный институт им. Серго Орджоникидзе.
  • 1986 – научная степень к.т.н. (специальности: «Процессы и аппараты химической технологии» и «Физическая химия»); Московский химико-технологический институт имени Д. И. Менделеева.

Профессиональная карьера
  • 2008-н.в. – ведущий научный сотрудник (Лаборатория полимерных мембран, ИНХС РАН).

Награды
  • Медаль "300 лет Российскому флоту" за разработку «Опреснение морской воды для подводного флота методом электромембранной очистки» (1997).

Области интересов
  • Мембранные технологии, электромембранные процессы разделения, формирование мембран, полимерные мембраны, половолоконные мембраны, композиционные мембраны, мембранные контакторы, фильтрация, газоразделение, создание лабораторных испытательных стендов и аппаратов.

Патенты
  • В.П.Василевский, И.Л.Борисов, И.А.Подтынников, А.А.Юшкин, А.В.Волков, В.В.Волков. Модуль для термопервапорационного выделения и концентрирования органических соединений из жидких сред. Патент РФ № 204484 от 26.05.2021 Бюл. № 15
  • В.П.Василевский, Г.С.Голубев, И.Л.Борисов, И.С.Еремеев, А.В.Волков. Дистилляционный модуль для концентрирования и опреснения водного раствора и способ концентрирования и опреснения водного раствора с его применением. Патент РФ № 2737524 от 01.12.2020 Бюл. № 34
  • Э.Г.Новицкий, В.П.Василевский, Е.А.Грушевенко, А.В.Волков, В.В.Волков, С.Д.Баженов. Способ удаления диоксида углерода из газовых смесей. Патент РФ №2656661 от 06.06.2018 г. Бюл. №16
  • В.В.Волков, И.Л.Борисов, В.П.Василевский, Э.Г.Новицкий, А.В.Волков. Мембранный дистилляционный модуль и способ опреснения минерализованной воды. Патент РФ № 2612701 от 03.11.2015
  • И.Л.Борисов, В.П.Василевский, В.В.Волков, А.В.Волков. Способ выделения и концентрирования органических веществ из жидких смесей и устройство для его осуществления. Патент РФ № 2532518 от 10.11.2014 Бюл. № 31
  • И.Л.Борисов, В.П.Василевский, В.В.Волков. Термопервапорационный модуль. Патент РФ №135533 от 20.12.2013
  • Э.Г.Новицкий, Г.А.Дибров, В.П.Василевский, А.В.Волков, А.А.Лысенко, В.С.Хотимский, В.В.Волков. Композиционная мембрана на основе высокопроницаемых стеклообразных полимеров. Патент РФ № 2491983 от 10.09.2013

Публикации
  • D.Matveev, V.Vasilevsky, V.Volkov, T.Plisko, A.Shustikov, A.Volkov, A.Bildyukevich. Fabrication of ultrafiltration membranes from non-toxic solvent dimethylsulfoxide: Benchmarking of commercially available acrylonitrile co-polymers. Journal of Environmental Chemical Engineering, 10 №1 (2022) 107061
  • D.N.Matveev, V.P.Vasilevsky. Influence of Spinneret Dimensional Parameters on Gas Separation Properties of Polysulfone Hollow Fiber Membranes. Key Engineering Materials, 899 (2021) 451-455
  • D.N.Matveev, I.L.Borisov, V.P.Vasilevsky. New Express Method of Non-Destructive Controlling of the Porous Structure of Asymmetric Membranes. Key Engineering Materials, 899 (2021) 456-462
  • T.Anokhina, A.Raeva, S.Makaev, I.Borisov, V.Vasilevsky, A.Volkov. Express Method of Preparation of Hollow Fiber Membrane Samples for Spinning Solution Optimization: Polysulfone as Example. Membranes, 11 №6 (2021) 396
  • D.Kalmykov, S.Makaev, G.Golubev, I.Eremeev, V.Vasilevsky, J. Song, T.He, A.Volkov. Operation of Three-Stage Process of Lithium Recovery from Geothermal Brine: Simulation. Membranes, 11 №3 (2021) 175
  • G.Golubev, I.Eremeev, S.Makaev, M.Shalygin, V.Vasilevsky, T.He, E.Drioli, A.Volkov. Thin-film distillation coupled with membrane condenser for brine solutions concentration. Desalination, 503 (2021) 114956
  • I.L.Borisov, S.D.Bazhenov, V.P.Vasilevsky, D.S.Bakhtin, A.V.Balynin, A.A.Yushkin, G.V.Vaganov, A.L.Didenko, V.E.Yudin, A.V.Volkov. Asymmetric hollow-fiber filtration membranes based on insoluble polyimide (R-BAPB): Influence of coagulation bath on porous structure. Journal of Physics: Conference Series, 1696 (2020) 012040
  • D.N.Matveev, V.P.Vasilevsky, K.A.Kutuzov. Properties of Polysulfone Hollow Fiber Membranes Depending on the Method of the Spinning Solution Preparing. Key Engineering Materials, 869 (2020) 443-448
  • D.N.Matveev, K.A.Kutuzov, V.P.Vasilevsky. Effect of Draw Ratio on the Morphology of Polysulfone Hollow Fiber Membranes. Membranes and Membrane Technologies, 2 №6 (2020) 351–356
  • D.N.Matveev, K.A.Kutuzov, V.P.Vasilevsky. Effect of Draw Ratio on the Morphology of Polysulfone Hollow Fiber Membranes. Membranes and Membrane Technologies, 10 №6 (2020) 373-379 (in Russian)
  • D.N.Matveev, V.P.Vasilevskii, I.L.Borisov, V.V.Volkov, A.V.Volkov. Effects of dry-jet wet spinning parameters on properties of polysulfone hollow fiber membranes. Russian Journal of Applied Chemistry, 93 №4 (2020) 554-563
  • D.N.Matveev, V.P.Vasilevskii, I.L.Borisov, V.V.Volkov, A.V.Volkov. Effects of dry-jet wet spinning parameters on properties of polysulfone hollow fiber membranes. Russian Journal of Applied Chemistry, 93 №4 (2020) 545-555 (in Russian)
  • E.G.Novitsky, E.A.Grushevenko, V.P.Vasilevsky, A.V.Volkov. Studying the Possibilities of Generating Electric-Power by Reverse Electrodialysis of Monoethanolamine Aqueous Solutions. Membranes and Membrane Technologies, 10 №2 (2020) 125-130 (in Russian)
  • E.G.Novitsky, E.A.Grushevenko, V.P.Vasilevsky, A.V.Volkov. Studying the Possibilities of Generating Electric-Power by Reverse Electrodialysis of Monoethanolamine Aqueous Solutions. Membranes and Membrane Technologies, 2 (2020) 109-114
  • V.Volkov, I.Borisov, G.Golubev, V.Vasilevsky, D.Matveev, G.Bondarenko, A.Volkov. Sorption-assisted thermopervaporation method for organics recovery from ABE fermentation broth. Journal of Chemical Technology & Biotechnology, 95 №1 (2020) 40-51
  • M.I.Kostyanaya, S.D.Bazhenov, V.P.Vasilevsky, S.A.Legkov, A.V.Nikitin, I.V.Sedov, A.V.Volkov. Membrane Absorption of Ethylene from a Mixture with Ethane Using MDK-3 Composite Membranes. Russian Journal of Applied Chemistry, 92 №12 (2019) 1826-1834
  • M.I.Kostyanaya, S.D.Bazhenov, V.P.Vasilevsky, S.A.Legkov, A.V.Nikitin, I.V.Sedov, A.V.Volkov. Membrane Absorption of Ethylene from a Mixture with Ethane Using MDK-3 Composite Membranes. Russian Journal of Applied Chemistry, 92 №13 (2019) 1749-1758 (in Russian)
  • D.N.Matveev, T.V.Plisko, V.V.Volkov, V.P.Vasilevskii, S.D.Bazhenov, A.A.Shustikov, E.V.Chernikova, A.V.Bildyukevich. Ultrafiltration Membranes Based on Various Acrylonitrile Copolymers. Membranes and Membrane Technologies, 1 №6 (2019) 386–393
  • D.N.Matveev, T.V.Plisko, V.V.Volkov, V.P.Vasilevskii, S.D.Bazhenov, A.A.Shustikov, E.V.Chernikova, A.V.Bildyukevich. Ultrafiltration Membranes Based on Various Acrylonitrile Copolymers. Membranes and Membrane Technologies, 9 №6 (2019) 451–459 (in Russian)
  • I.Borisov, V.Vasilevsky, D.Matveev, A.Ovcharova, A.Volkov, V.Volkov. Effect of Temperature Exposition of Casting Solution on Properties of Polysulfone Hollow Fiber Membranes. Fibers, 7 №12 (2019) 110
  • E.G.Novitsky, G.S.Golubev, E.A.Grushevenko, V.P.Vasilevsky, A.V.Volkov. Process of Concentrating of Highly Mineralized Waters in an Air-Gap Membrane Distiller. Membranes and Membrane Technologies, 9 №6 (2019) 445-450 (in Russian)
  • E.G.Novitsky, G.S.Golubev, E.A.Grushevenko, V.P.Vasilevsky, A.V.Volkov. Process of Concentrating of Highly Mineralized Waters in an Air-Gap Membrane Distiller. Membranes and Membrane Technologies, 1 №6 (2019) 381-385
  • E.Grushevenko, S.Bazhenov, V.Vasilevsky, E.Novitsky, M.Shalygin, A.Volkov. Effect of Carbon Dioxide Loading on Removal of Heat Stable Salts from Amine Solvent by Electrodialysis. Membranes, 9 №11 (2019) 152
  • S.D.Bazhenov, E.G.Novitskii, V.P.Vasilevskii, E.A.Grushevenko, A.A.Bienko, A.V.Volkov. Heat-Stable Salts and Methods for Their Removal from Alkanolamine Carbon Dioxide Absorbents (Review). Russian Journal of Applied Chemistry, 92 №8 (2019) 1045-1063
  • S.D.Bazhenov, E.G.Novitskii, V.P.Vasilevskii, E.A.Grushevenko, A.A.Bienko, A.V.Volkov. Heat-Stable Salts and Methods for Their Removal from Alkanolamine Carbon Dioxide Absorbents (Review). Russian Journal of Applied Chemistry, 92 №8 (2019) 957-979 (in Russian)
  • T.S.Anokhina, S.D.Bazhenov, I.L.Borisov, V.P.Vasilevsky, V.A.Vinokurov, A.V.Volkov. Nanocellulose as Modifier for Hollow Fiber Ultrafiltration PSF Membranes. Key Engineering Materials, 816 (2019) 238-243
  • A.O.Malakhov, S.D.Bazhenov, V.P.Vasilevsky, I.L.Borisov, A.A.Ovcharova, A.V.Bildyukevich, V.V.Volkov, L.Giorno, A.V.Volkov. Thin-film composite hollow fiber membranes for ethylene/ethane separation in gas-liquid membrane contactor. Separation and Purification Technology, 219 (2019) 64-73
  • E.G.Novitskii, V.P.Vasilevskii, V.I.Vasil’eva, E.A. Goleva, E.A.Grushevenko, A.V.Volkov. Effect of Composition and Structure of Aqueous Monoethanolamine Solutions on Carbon Dioxide Sorption and Desorption in Purification of Gas Mixtures. Russian Journal of Applied Chemistry, 91 №5 (2018) 813–821
  • A.Yushkin, V.Vasilevsky, V.Khotimskiy, A.Szymczyk, A.Volkov. Evaluation of liquid transport properties of hydrophobic polymers of intrinsic microporosity by electrical resistance measurement. Journal of Membrane Science, 554 (2018) 346–356
  • D.S.Bakhtin, L.A.Kulikov, G.N.Bondarenko, V.P.Vasilevskii, A.L.Maksimov, A.V.Volkov. Stabilization of gas transport properties of composite membranes with a thin PTMSP selective layer by adding porous aromatic framework nanoparticles and simultaneous polymer crosslinking. Petroleum Chemistry, 58 №9 (2018) 790-796
  • D.S.Bakhtin, L.A.Kulikov, G.N.Bondarenko, V.P.Vasilevskii, A.L.Maksimov, A.V.Volkov. Stabilization of gas transport properties of composite membranes with a thin PTMSP selective layer by adding porous aromatic framework nanoparticles and simultaneous polymer crosslinking. Membranes and membrane technologies, 8 №4 (2018) 272-279 (in Russian)
  • E.A.Grushevenko, S.D.Bazhenov, V.P.Vasilevskii, E.G.Novitskii, A.V.Volkov. Two-step electrodialysis treatment of monoethanolamine to remove heat stable salts. Russian Journal of Applied Chemistry, 91 №4 (2018) 602-610
  • E.G.Novitskii, V.P.Vasilevskii, V.I.Vasil’eva, E.A.Goleva, E.A.Grushevenko, A.V.Volkov. Effect of Composition and Structure of Aqueous Monoethanolamine Solutions on Carbon Dioxide Sorption and Desorption in Purification of Gas Mixtures. Russian Journal of Applied Chemistry, 91 №5 (2018) 813–821
  • I.L.Borisov, G.S.Golubev, V.P.Vasilevsky, A.V.Volkov, V.V.Volkov. Novel hybrid process for bio-butanol recovery: Thermopervaporation with porous condenser assisted by phase separation. Journal of Membrane Science 523 (2017) 291–300
  • A.Ovcharova, V.Vasilevsky, I.Borisov, S.Bazhenov, A.Volkov, A.Bildyukevich, V.Volkov. Polysulfone porous hollow fiber membranes for ethylene-ethane separation in gas-liquid membrane contactor. Separation and Purification Technology 183 (2017) 162–172
  • E.G.Novitskii, V.P.Vasilevskii, E.A.Grushevenko, A.V.Volkov, V.I.Vasil’eva. The Effect of Monoethanolamine on Conductivity and Efficiency of Electrodialysis of Acid and Salt Solutions. Russian Journal of Electrochemistry, V.53 №4 (2017) 391–397
  • E.G.Novitskii, V.P.Vasilevskii, E.A.Grushevenko, A.V.Volkov, V.I.Vasil’eva. The Effect of Monoethanolamine on Conductivity and Efficiency of Electrodialysis of Acid and Salt Solutions. Russian Journal of Electrochemistry, V.53 №4 (2017) 445–451 (in Russian)
  • A.V.Volkov, E.G.Novitsky, I.L.Borisov, V.P.Vasilevsky, V.V.Volkov. Porous condenser for thermally driven membrane processes: Gravity independent operation. Separation and Purification Technology 171 (2016) 191–196
  • A.A.Ovcharova, V.P.Vasilevsky, I.L.Borisov, V.V.Usosky, V.V.Volkov. Porous Hollow Fiber Membranes with Varying Hydrophobic–Hydrophilic Surface Properties for Gas–Liquid Membrane Contactors. Petroleum Chemistry, 56 №11 (2016) 1066–1073
  • A.A.Ovcharova, V.P.Vasilevsky, I.L.Borisov, V.V.Usosky, V.V.Volkov. Porous Hollow Fiber Membranes with Varying Hydrophobic–Hydrophilic Surface Properties for Gas–Liquid Membrane Contactors. Membranes and membrane technologies, 6 №4 (2016) 418-426 (in Russian)
  • S.Bazhenov, A.Rieder, B.Schallert, V.Vasilevsky, S.Unterberger, E.Grushevenko, V.Volkov, A.Volkov. Reclaiming of degraded MEA solutions by electrodialysis: Results of ED pilot campaign at post-combustion CO2 capture pilot plant. International Journal of Greenhouse Gas Control. 42 (2015), 593–601
  • G.A.Dibrov, E.G.Novitsky, V.P.Vasilevsky, V.V.Volkov. Cold Rolling for Controllable Narrowing of Pore Size and Pore Size Distribution of Commercial Fluoroplastic Microfiltration Membrane. Petroleum Chemistry. 54 №7 (2014) 568–572
  • G.A.Dibrov, E.G.Novitsky, V.P.Vasilevsky, V.V.Volkov. Cold Rolling for Controllable Narrowing of Pore Size and Pore Size Distribution of Commercial Fluoroplastic Microfiltration Membrane. Membranes and membrane technologies, 4 №1 (2014) 60-65 (in Russian)
  • S.D.Bazhenov, G.A.Dibrov, E.G.Novitsky, V.P.Vasilevsky, V.V.Volkov. Effect of absorbent vapor on stability of characteristics of a composite PTMSP membrane on nonwoven polyester support during regeneration of diethanolamine solution in membrane contactor. Petroleum Chemistry, 54 №8 (2014) 617-621
  • S.D.Bazhenov, G.A.Dibrov, E.G.Novitsky, V.P.Vasilevsky, V.V.Volkov. Effect of absorbent vapor on stability of characteristics of a composite PTMSP membrane on nonwoven polyester support during regeneration of diethanolamine solution in membrane contactor. Membranes and membrane technologies, 4 №3 (2014), 202-207 (in Russian)
  • E.G.Novitsky, V.P.Vasilevsky, S.D.Bazhenov, E.A.Grushevenko, V.I.Vasilyeva, A.V.Volkov. Influence of the composition of concentrate solutions on the efficiency of carbon dioxide removal from monoethanolamine aqueous solution by electrodialysis. Petroleum Chemistry, 54 №8 (2014) 680–685
  • E.G.Novitsky, V.P.Vasilevsky, S.D.Bazhenov, E.A.Grushevenko, V.I.Vasilyeva, A.V.Volkov. Influence of the composition of concentrate solutions on the efficiency of carbon dioxide removal from monoethanolamine aqueous solution by electrodialysis. Membranes and membrane technologies, 4 №4 (2014) 280-286 (in Russian)
  • G.A. Dibrov, V.V. Volkov, V.P. Vasilevsky, A.A. Shutova, S.D.Bazhenov, V.S. Khotimsky, A.V. Volkov. Robust high-permeance PTMSP composite membranes for CO2 membrane gas desorption at elevated temperatures and pressures. Journal of Membrane Science. 470 (2014), 439-450
  • V.V.Volkov, A.V.Bildukevich, G.A.Dibrov, V.V.Usoskiy, V.P.Kasperchik, V.P. asilevsky, E.G.Novitsky. Elaboration of Composite Hollow Fiber Membranes with Selective Layer from Poly[1-(Trimethylsylil)1-Propyne] for Regeneration of Aqueous Alkanolamine Solutions. Petroleum Chemistry, V. 53, №8, (2013), 619–626
  • V.V.Volkov, A.V.Bildukevich, G.A.Dibrov, V.V.Usoskiy, V.P.Kasperchik, V.P.Vasilevsky, E.G.Novitsky. Elaboration of Composite Hollow Fiber Membranes with Selective Layer from Poly[1-(Trimethylsylil)1-Propyne] for Regeneration of Aqueous Alkanolamine Solutions. Membranes and membrane technologies, 3 №4 (2013) 252-260 (in Russian)
  • T.V.Eliseeva, E.V.Krisilova, V.P.Vasilevsky, E.G.Novitsky. Electrodialysis of solutions of tartaric acid and its salts. Petroleum Chemistry, 52 №8 (2012) 609-613
  • T.V.Eliseeva, E.V.Krisilova, V.P.Vasilevsky, E.G.Novitsky. Electrodialysis of solutions of tartaric acid and its salts. Membranes and membrane technologies, 2 №3 (2012) 173-178 (in Russian)
  • V.V.Volkov, A.V.Bildukevich, A.N.Filippov, I.V.Vorotyntsev, G.A.Dibrov, V.V.Usoskiy, V.P.Kasperchik, V.P.Vasilevsky, E.G.Novitsky. Composite hollow fiber membranes with diffusion layers of polytrimethylsylilpropyne. Proceedings of R.E.Alekseev Nizhny Novgorod State Technical University, 78 №4 (2012) 280-286
  • A.A.Lysenko, S.D.Bazhenov, V.P.Vasilevsky, E.G.Novitsky, A.V.Volkov. Membrane regeneration of water solution of monoethanolamine. Membranes and membrane technologies, V.2, №4, (2012), 1–6 (in Russian)
  • V.V.Volkov, G.A.Dibrov, A.O.Malakhov, E.G.Novitsky, V.P.Vasilevsky, R.E.Trifonov, N.A.Povarov, V.A.Ostrovsky. Polymeric membranes based on poly-2-methyl-5-vinyltetrazol: synthesis and gas transport properties. Chemical industry, 89 (2012) 321-326 (in Russian)
  • V.P.Vasilevskii, E.G.Novitsky. Electromembrane separation and concentration of lactic acid from fermentation products. Krit. technol. Membrany, 47 №3 (2010) 15 (in Russian)
  • V.P.Vasilevskii, E.G.Novitskii, V.V.Volkov. Electromembrane regeneration of amine solutions from gas processing industries. Krit. technol. Membrany 44 (2009), 14-17 (in Russian)


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