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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






Грушевенко Евгения Александровна


<< Назад
Грушевенко Евгения Александровна
Старший научный сотрудник (к.х.н.)

Год рождения: 1993

ORCID: 0000-0002-6643-3736
ResearcherID: J-8017-2014
Scopus Author ID: 56503842000
Scholar Google: Evgenia Grushevenko
SPIN: 2683-3075
IstinaResearcherID (IRID): 54062242



Образование
  • 2010-2015 – кафедра технологии нефтехимического синтеза и искусственного жидкого топлива им. А.Н.Башкирова, факультет биотехнологий и органического синтеза, Московский государственный университет тонких химических технологий им. М. В. Ломоносова.
  • 2016-2020 – аспирантура (Лаборатория полимерных мембран ИНХС РАН; научный руководитель Борисов И.Л.).
  • 2018 – XII Школа молодых ученых по нефтехимии (Звенигород, Россия).
  • 2018 – Химико-технологическая летняя школа по мембранным технологиям «Chemical Engineering Summer School on Membrane Technology» (Нижний Новгород, Россия).
  • 2020 – научная степень к.х.н. (научная область: «Мембраны и мембранная технология»); Институт нефтехимического синтеза им. А.В. Топчиева РАН.

Профессиональная карьера
  • 2012-2016 – старший лаборант (Лаборатория полимерных мембран, ИНХС РАН).
  • 2014 – производственная практика (2 месяца); предприятие ООО «Лукойл – Нижегороднефтеоргсинтез», установка гидроочистки дизельного топлива ЛЧ-24/2000.
  • 2016-2020 – младший научный сотрудник (Лаборатория полимерных мембран, ИНХС РАН).
  • 2020-2022 – научный сотрудник (Лаборатория полимерных мембран, ИНХС РАН).
  • 2022-н.в. – старший научный сотрудник (Лаборатория полимерных мембран, ИНХС РАН).

Награды
  • Премия Правительства Москвы молодым ученым (2022)
  • Лучший устный доклад среди молодых ученых на XV Юбилейной Всероссийской научной конференции с международным участием "МЕМБРАНЫ-2022" (2022)
  • Стипендия Правительства РФ для молодых ученых (2019)
  • Лауреат конкурса (2 место) на лучший стендовый доклад в области мембран и мембранной технологии в рамках конференции, посвященная 85-летию Института нефтехимического синтеза им. А.В.Топчиева Российской академии наук (2019)
  • Лучший стендовый доклад среди молодых ученых на XII Международной конференции молодых ученых по нефтехимии (2018)
  • Лауреат конкурса (3 место) стендовых докладов аспирантов в рамках международной конференции "5th International Scientific Conference on Pervaporation, Vapor Permeation, and Membrane Distillation" (2017)
  • Лауреат конкурса (2 место) «Российский молодежный конкурс научных работ в области мембран и мембранных технологий (Russian Young MemBrain)» на «Ion Transport in organic and inorganic membranes-2016» (2016)
  • Лауреат конкурса (2 место) устных докладов молодых ученых в рамках 69 международной конференции "Нефть и газ - 2015" (2015)
  • Лучшая работа конкурсе дипломных работ специалистов 2015 года в Московском государственном университете тонких химических технологий им. М.В. Ломоносова (2015)

Области интересов
  • Мембранные технологии: полимерные пленки и мембраны, мембранные материалы, силоксановые каучуки, разделение газов, первапорация, электромембранные процессы.

Патенты
  • И.Л.Борисов, Е.А.Грушевенко, А.В.Волков, В.В.Волков Способ получения композиционной мембраны и композиционная мембрана, полученная этим способом. Патент РФ №2652228 от 25.04.2018 г. Бюл. №12
  • 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

Публикации
  • A.Raeva, D.Matveev, N.Bezrukov, E.Grushevenko, A.Zhansitov, Z.Kurdanova, K.Shakhmurzova, T.Anokhina, S.Khashirova, I.Borisov. Highly Permeable Ultrafiltration Membranes Based on Polyphenylene Sulfone with Cardo Fragments. Polymers, 16 №5 (2024) 703
  • E.Grushevenko, T.Rokhmanka, S.Sokolov, A.Basko, I.Borisov, K.Pochivalov, A.Volkov. Influence of Type of Cross-Linking Agent on Structure and Transport Properties of Polydecylmethylsiloxane. Polymers, 15 №22 (2023) 4436
  • D.N.Matveev, E.A.Grushevenko, Yu.I.Matveeva, V.P.Vasilevsky, I.L.Borisov. Development of novel composite polydecylmethylsiloxane hollow fiber membranes on highly permeable polysulfone support for С2+1 separation. Plasticheskie massy, 9-10 (2023) 33-35 (in Russian)
  • D.N.Matveev, I.L.Borisov, E.A.Grushevenko, V.P.Vasilevsky, T.S.Anokhina, V.V.Volkov. Hollow fiber PSF fine porous supports with ultrahigh permeance for composite membrane fabrication: Novel inert bore liquid (IBL) spinning technique. Separation and Purification Technology, 330 Part B (2024) 125363
  • Е.А.Grushevenko, Т.N.Rokhmanka, A.V.Balynin, G.S.Golubev, I.L.Borisov. Trifluoroethylacrylate-substituted polymethylsiloxane—promising membrane material for separating an ABE fermentation mixture. Membranes and Membrane Technologies, 13 №6 (2023) 452-463 (in Russian)
  • T.S.Anokhina, T.O.Ershova, A.A.Anisimov, M.N.Temnikov, E.A.Grushevenko, I.L.Borisov, A.V.Volkov, A.M.Muzafarov. Pervaporation and Gas Separation Properties of High-Molecular Ladder-like Polyphenylsilsesquioxanes. Polymers, 15 №15 (2023) 3277
  • D.Kalmykov, S.Shirokikh, E.A.Grushevenko, S.A.Legkov, G.N.Bondarenko, T.S.Anokhina, S.Molchanov, S.D.Bazhenov. Stability of Porous Polymeric Membranes in Amine Solvents for Membrane Contactor Applications. Membranes, 13 №5 (2023) 544
  • E.G.Novitsky, E.A.Grushevenko, I.L.Borisov, T.S.Anokhina, S.D.Bazhenov. Monoethanolamine (MEA) Degradation: Influence on the Electrodialysis Treatment of MEA-Absorbent. Membranes, 13 №5 (2023) 491
  • T.N.Rokhmanka, E.A.Grushevenko, O.V.Arapova, G.N.Bondarenko, G.S.Golubev, I.L.Borisov, A.V.Volkov. Fouling of Polyalkylmethylsiloxane Composite Membranes during Pervaporation Separation of ABE-Fermentation Mixtures. Applied Sciences, 13 №6 (2023) 3827
  • E.A.Grushevenko, T.N.Rokhmanka, I.L.Borisov, A.V.Volkov, S.D.Bazhenov. Effect of OH-Group Introduction on Gas and Liquid Separation Properties of Polydecylmethylsiloxane. Polymers, 15 №3 (2023) 723
  • A.O.Malakhov, S.E.Sokolov, E.A.Grushevenko, V.V.Volkov. Temperature Dependence of Light Hydrocarbons Sorption and Transport in Dense Membranes Based on Tetradecyl Substituted Silicone Rubber. Membranes, 13 №2 (2023) 124
  • Е.А.Grushevenko, I.V.Petrova, V.V.Volkov, А.V.Volkov. Prospects for the application of membrane reactors for the hydroformylation process. Proceedings of the Academy of Sciences: Chemical Series, 72 №2 (2023) 393-403 (in Russian)
  • D.Kalmykov, A.Balynin, A.Yushkin, E.Grushevenko, S.Sokolov, A.Malakhov, A.Volkov, S.Bazhenov. Membranes Based on PTMSP/PVTMS Blends for Membrane Contactor Applications. Membranes, 12 №11 (2022) 1160
  • E.Dmitrieva, E.Grushevenko, D.Razlataya, G.Golubev, T.Rokhmanka, T.Anokhina, S.Bazhenov. Alginate Ag for Composite Hollow Fiber Membrane: Formation and Ethylene/Ethane Gas Mixture Separation. Membranes, 12 №11 (2022) 1090
  • S.E.Sokolov, E.A.Grushevenko, V.V.Volkov, I.L.Borisov, S.Yu.Markova, M.G.Shalygin, A.V.Volkov. A Composite Membrane Based on Polydecylmethylsiloxane for the Separation of Hydrocarbons Mixtures at Reduced Temperatures. Membranes and Membrane Technologies, 12 №6 (2022) 430-437 (in Russian)
  • S.E.Sokolov, E.A.Grushevenko, V.V.Volkov, I.L.Borisov, S.Yu.Markova, M.G.Shalygin, A.V.Volkov. A Composite Membrane Based on Polydecylmethylsiloxane for the Separation of Hydrocarbons Mixtures at Reduced Temperatures. Membranes and Membrane Technologies, 4 (2022) 377-384
  • Е.А.Grushevenko, Т.N.Rohmanka, G.А.Dibrov, V.V.Volkov, А.V.Volkov. Evaluation of the Efficiency of Polydecylmethylsiloxane in the Separation of a 1-Hexene–Heptanal Mixture. Membranes and Membrane Technologies, 12 №6 (2022) 409-419 (in Russian)
  • E.A.Grushevenko, T.N.Rohmanka, G.A.Dibrov, V.V.Volkov, A.V.Volkov. Evaluation of the Efficiency of Polydecylmethylsiloxane in the Separation of a 1-Hexene–Heptanal Mixture. Membranes and Membrane Technologies, 4 (2022) 357-366
  • E.Grushevenko, A.Balynin, R.Ashimov, S.Sokolov, S.Legkov, G.Bondarenko, I.Borisov, M.Sadeghi, S.Bazhenov, A.Volkov. Hydrophobic Ag-Containing Polyoctylmethylsiloxane-Based Membranes for Ethylene/Ethane Separation in Gas-Liquid Membrane Contactor. Polymers, 14 №8 (2022) 1625
  • G.Dibrov, G.Kagramanov, V.Sudin, S.Molchanov, E.Grushevenko, A.Yushkin, V.Volkov. Influence of Draw Ratio and Take-Up Velocity on Properties of Ultrafiltration Hollow Fiber Membranes from Polyethersulfone. Fibers, 10 №3 (2022) 29
  • I.L.Borisov, E.A.Grushevenko, T.S.Anokhina, D.S.Bakhtin, I.S.Levin, G.N.Bondarenko, V.V.Volkov, A.V.Volkov. Influence of side chains assembly on the structure and transport properties of comb-like polysiloxanes in hydrocarbon separation. Materials Today Chemistry, 22 (2021) 100598
  • I.Borisov, E.Grushevenko, E.Buinova, V.Volkov. Development of a Coating Method for Polydecylmethylsiloxane Selective Layer on Polysulfone Hollow Fiber Support. Key Engineering Materials, 899 (2021) 275-280
  • E.A.Grushevenko, I.L.Borisov, A.V.Volkov. High-Selectivity Polysiloxane Membranes for Gases and Liquids Separation (A Review). Petroleum Chemistry, 61 (2021) 959-976
  • E.A.Grushevenko, I.L.Borisov, A.V.Volkov. High-Selectivity Polysiloxane Membranes for Gases and Liquids Separation (A Review). Petroleum Chemistry, 61 №5 (2021) 571-590 (in Russian)
  • D.Bakhtin, S.Bazhenov, V.Polevaya, E.Grushevenko, S.Makaev, G.Karpacheva, V.Volkov, A.Volkov. Aging of Thin-Film Composite Membranes Based on Crosslinked PTMSP/PEI Loaded with Highly Porous Carbon Nanoparticles of Infrared Pyrolyzed Polyacrylonitrile. Membranes, 10 №12 (2020) 419
  • G.Dibrov, G.Kagramanov, V.Sudin, E.Grushevenko, A.Yushkin, A.Volkov. Influence of Sodium Hypochlorite Treatment on Pore Size Distribution of Polysulfone/Polyvinylpyrrolidone Membranes. Membranes, 10 №11 (2020) 356
  • N.V.Ushakov, E.Sh.Finkel’shtein, E.A.Grushevenko, V.V.Volkov, I.L.Borisov. Synthesis of Monomers for Promising Membrane Materials, Polyalkylenesiloxanes. Russian Journal of Applied Chemistry, 93 №11 (2020) 1646–1654
  • N.V.Ushakov, E.Sh.Finkel’stein, E.A.Grushevenko, V.V.Volkov, I.L.Borisov. Synthesis of monomers of polyalkylmethylsiloxanes - perspective membrane materials. Journal of Applied Chemistry, 93 №11 (2020) 1543-1552 (in Russian)
  • I.L.Borisov, N.Ushakov, E.Grushevenko, E.Finkel’stein, V.Volkov. Gas Separation Membranes Based on Germanium Containing Polyalkylenesiloxane. Key Engineering Materials, 869 (2020) 45-50
  • E.Grushevenko, I.A.Podtynnikov, O.Sharova, T.Anokhina, I.L.Borisov. Influence of Casting Method on Pervaporational Performances of Polyheptylmethylsiloxane Membranes. Key Engineering Materials, 869 (2020) 51-55
  • E.A.Grushevenko, I.L.Borisov, D.S.Bakhtin, V.V.Volkov, A.V.Volkov. The Effect of the Type and Concentration of the Crosslinking Diene on the Gas Transport Properties of Membranes Based on Polyoctylmethylsiloxane. Membranes and Membrane Technologies, 10 №6 (2020) 428-435 (in Russian)
  • E.A.Grushevenko, I.L.Borisov, D.S.Bakhtin, V.V.Volkov, A.V.Volkov. The Effect of the Type and Concentration of the Crosslinking Diene on the Gas Transport Properties of Membranes Based on Polyoctylmethylsiloxane. Membranes and Membrane Technologies, 2 №6 (2020) 399–406
  • I.L.Borisov, E.A.Grushevenko, A.V.Volkov. Effect of Crosslinking Agent Length on the Transport Properties of Polydecylmethylsiloxane-Based Membranes. Membranes and Membrane Technologies, 2 №5 (2020) 318-324
  • I.L.Borisov, E.A.Grushevenko, A.V.Volkov. Effect of Crosslinking Agent Length on the Transport Properties of Polydecylmethylsiloxane-Based Membranes. Membranes and Membrane Technologies, 10 №5 (2020) 334-340 (in Russian)
  • A.Brunetti, P.F.Zito, I.Borisov, E.Grushevenko, V.Volkov, A.Volkov, G.Barbieri. CO2 separation from humidified ternary gas mixtures using a polydecylmethylsiloxane composite membrane. Fuel Processing Technology 210 (2020) 106550
  • I.Borisov, I.Podtynnikov, E.Grushevenko, O.Scharova, T.Anokhina, S.Makaev, A.Volkov, V.Volkov. High Selective Composite Polyalkylmethylsiloxane Membranes for Pervaporative Removal of MTBE from Water: Effect of Polymer Side-chain. Polymers, 12 №6 (2020) 1213
  • E.A.Grushevenko, I.L.Borisov, A.A.Knyazeva, V.V.Volkov, A.V.Volkov. Polyalkylmethylsiloxanes composite membranes for hydrocarbon/methane separation: Eight component mixed-gas permeation properties. Separation and Purification Technology, 241 (2020) 116696
  • 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
  • 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
  • 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)
  • E.A.Grushevenko, I.A.Podtynnikov, I.L.Borisov. High selective pervaporation membrane for separation of 1-butanol from waste water. Russian Journal of Applied Chemistry, 92 №11 (2019) 1593-1601
  • E.A.Grushevenko, I.A.Podtynnikov, I.L.Borisov. High selective pervaporation membrane for separation of 1-butanol from waste water. Russian Journal of Applied Chemistry, 92 №11 (2019) 1488-1496 (in Russian)
  • 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
  • I.L.Borisov, N.V.Ushakov, E.A.Grushevenko, E.S.Finkel’stein, V.V.Volkov. Synthesis and Formation of Gas Separation Membranes Based on Polyalkylenesiloxanes. Key Engineering Materials, 816 (2019) 233-237
  • E.A.Grushevenko, I.A.Podtynnikov, A.A.Knyazeva, O.A.Sharova, T.S.Anokhina, I.L.Borisov. Membranes Based on Polyalkylmethylsiloxanes for Selective Removal of C5 and C6 Alcohol from Water. Key Engineering Materials, 816 (2019) 228-232
  • E.A.Grushevenko, I.L.Borisov, D.S.Bakhtin, G.N.Bondarenko, I.S.Levin, A.V.Volkov. Silicone rubbers with alkyl side groups for C3+ hydrocarbon separation. Reactive and Functional Polymers, 134 (2019) 156-165
  • 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. Journal of Applied Chemistry, 91 №5 (2018) 813-821
  • I.L.Borisov, E.A.Grushevenko, I.A.Podtynnikov, D.S.Bakhtin, G.N.Bondarenko. Novel Membrane Material Based on Polybutadiene and Polydimethylsiloxane for Gas Separation and Hydrophobic Pervaporation. Petroleum Chemistry, 58 №13 (2018) 1113-1122
  • I.L.Borisov, E.A.Grushevenko, I.A.Podtynnikov, D.S.Bakhtin, G.N.Bondarenko. Novel Membrane Material Based on Polybutadiene and Polydimethylsiloxane for Gas Separation and Hydrophobic Pervaporation. Membranes and membrane technologies, 8 №6 (2018) 388-398 (in Russian)
  • E.A.Grushevenko, A.A.Knyazeva, I.A.Podtynnikov, O.A.Sharova, I.L.Borisov. Olefin-polymethylsiloxane membrane composition for oxygenates removal from wastewater by pervaporation. Journal of Physics: Conference Series, 1134 (2018) 012017
  • 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.A.Grushevenko, I.A.Podtynnikov, G.S.Golubev, V.V.Volkov, I.L.Borisov. Polyheptylmethylsiloxane - a novel material for removal of oxygenates from water by pervaporation. Petroleum Chemistry 58, 11 (2018) 941–948
  • E.A.Grushevenko, I.A.Podtynnikov, G.S.Golubev, V.V.Volkov, I.L.Borisov. Polyheptylmethylsiloxane - a novel material for removal of oxygenates from water by pervaporation, Membranes and membrane technologies, 8 №5 (2018) 334-342 (in Russian)
  • E.A.Grushevenko, I.L.Borisov, D.S.Bakhtin, S.A.Legkov, G.N.Bondarenko, A.V.Volkov. Membrane material based on octyl-substituted polymethylsiloxane for separation of C3/C1 hydrocarbons. Petroleum Chemistry 57, №4 (2017) 334-340
  • E.G.Novitskii, V.P.Vasilevskii, E.A.Grushevenko, A.V.Volkov, V.I.Vasil’eva. The Effect of Monoethanolamine onConductivity and Efficiency of Electrodialysis of Acid and Salt Solutions. Russian Journal of Electrochemistry, V.53 №4 (2017) 391–397
  • E.A.Grushevenko, I.L.Borisov, D.S.Bakhtin, S.A.Legkov, G.N.Bondarenko, A.V.Volkov. Membrane material based on octyl-substituted polymethylsiloxane for separation of C3/C1 hydrocarbons. Membranes and membrane technologies 7, №2 (2017) 117-124(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
  • S.Bazhenov, V.Vasilevsky, A.Rieder, S.Unterberger, E.Grushevenko, V.Volkov, B.Schallert, A.Volkov. Heat stable salts (HSS) removal by Electrodialysis: reclaiming of MEA used in post-combustion CO2-capture. Energy Procedia, 63, (2014), 6349–6356
  • 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. V.4, №4, (2014), 280-286 (in Russian)


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