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http://elartu.tntu.edu.ua/handle/lib/43771
| Tytuł: | Hydrodynamic cavitation in mass transfer processes. analysis of the vapour-gas phase |
| Inne tytuły: | Гідродинамічна кавітація в масообмінних процесах. аналіз парогазової фази |
| Authors: | Вітенько, Д. Зварич, Н. Vitenko, D. Zvarych, N. |
| Affiliation: | Тернопільський національний технічний університет імені Івана Пулюя, Україна |
| Bibliographic description (Ukraine): | Vitenko D. Hydrodynamic cavitation in mass transfer processes. analysis of the vapour-gas phase / D. Vitenko, N. Zvarych // Book of abstracts of the ⅩⅡ International scientific and practical conference of young researchers and students „Actual problems of modern technologies“, 6-7 December 2023. — Tern. : PE Palianytsia V.A., 2023. — P. 273–274. — (Fundamental problems of food, bio- and nanotechnology). |
| Bibliographic description (International): | Vitenko D., Zvarych N. (2023) Hydrodynamic cavitation in mass transfer processes. analysis of the vapour-gas phase. Book of abstracts of the ⅩⅡ International scientific and practical conference of young researchers and students „Actual problems of modern technologies“ (Tern., 6-7 December 2023), pp. 273-274. |
| Część publikacji: | Матеріали ⅩⅡ Міжнародної науково-практичної конференції молодих учених та студентів „Актуальні задачі сучасних технологій“, 2023 Book of abstracts of the ⅩⅡ International scientific and practical conference of young researchers and students „Actual problems of modern technologies“, 2023 |
| Konferencja/wydarzenie: | ⅩⅡ Міжнародна науково-практичноа конференція молодих учених та студентів „Актуальні задачі сучасних технологій“ |
| Journal/kolekcja: | Матеріали ⅩⅡ Міжнародної науково-практичної конференції молодих учених та студентів „Актуальні задачі сучасних технологій“ |
| Data wydania: | 6-gru-2023 |
| Date of entry: | 21-sty-2024 |
| Wydawca: | ФОП Паляниця В. А. PE Palianytsia V.A. |
| Place edycja: | Тернопіль Ternopil |
| Zakresu czasowego: | 6-7 грудня 2023 року 6-7 December 2023 |
| UDC: | 532.5 |
| Strony: | 2 |
| Zakres stron: | 273-274 |
| Główna strona: | 273 |
| Strona końcowa: | 274 |
| URI: | http://elartu.tntu.edu.ua/handle/lib/43771 |
| ISBN: | 978-617-7875-71-9 |
| Właściciel praw autorskich: | © Тернопільський національний технічний університет імені Івана Пулюя, 2023 |
| Związane URL literatura: | https://doi.org/10.1134/S0040579506060078 https://doi.org/10.3390/ma14154181 |
| Wykaz piśmiennictwa: | 1. Haoxuan Zheng, Ying Zheng , Jesse Zhu. Recent Developments in Hydrodynamic Cavitation Reactors: Cavitation Mechanism, Reactor Design, and Applications; Engineering ; Volume 19, December 2022, Pages 180-198. 2. AM Pavlenko, H Koshlak. Application of Thermal and Cavitation Effects for Heat and Mass Transfer Process Intensification in Multicomponent Liquid Media; Energies 2021, 14(23), 7996. 3. Feng Hong, Hailin Tian , Xi Yuan, Shuchang Liu, Qintian Peng, Yan Shi, Lei Jin, Liqun Ye, Jinping Jia d, Diwen Ying, Thomas Stephen Ramsey, Yingping Huang. CFD-assisted modeling of the hydrodynamic cavitation reactors for wastewater treatment — A review. Journal of Environmental Management Volume 321, 1 November 2022, 115982 4. Shalini S. Arya,a,*Pavankumar R. ore,a ayur R. Ladole,b Kakoli Pegu,a and Aniruddha B. Panditc. Non-thermal, energy efficient hydrodynamic cavitation for food processing, process intensification and extraction of natural bioactives: A review. Ultrason Sonochem. 2023 Aug; 98: 106504. 5. Liguo Song, Yuhang Wei, Chengqi Deng, Jingang Yang, Hao Sui, Feng Guo, Lingrun Meng, Xingda Zhao, Shiping Wei, Deping Sun, Zhitao Han, Minyi Xu and Xinxiang Pan. A Novel Method Based on Hydrodynamic Cavitation for Improving Nitric Oxide Removal Performance of NaClO2 6. Tatiana Vitenko, Paweł Droździel, Anna Rudawska. Industrial usage of hydrodynamic cavitation device. Advances in Science and TechnologyResearch JournalVolume 12, No. 3, September 2018, pages 158–167. 7. Viten’ko, T. ., Gumnitskii, Y. . ass transfer during dissolution of solids using hydrodynamic cavitation devices. Theor Found Chem Eng 40, 598–603 (2006). https://doi.org/10.1134/S0040579506060078 8. Haoxuan Zheng, Ying Zheng, Jesse Zhu. Recent Developments in Hydrodynamic Cavitation Reactors: Cavitation Mechanism, Reactor Design, and Applications. Engineering Volume 19, December 2022, Pages 180-198. 9. Drozdziel, P.; Vitenko, T.; Voroshchuk, V.; Narizhnyy, S.; Snizhko, O. Discrete-Impulse Energy Supply in Milk and Dairy Product Processing. Materials 2021, 14, 4181. https://doi.org/10.3390/ma14154181 |
| References: | 1. Haoxuan Zheng, Ying Zheng , Jesse Zhu. Recent Developments in Hydrodynamic Cavitation Reactors: Cavitation Mechanism, Reactor Design, and Applications; Engineering ; Volume 19, December 2022, Pages 180-198. 2. AM Pavlenko, H Koshlak. Application of Thermal and Cavitation Effects for Heat and Mass Transfer Process Intensification in Multicomponent Liquid Media; Energies 2021, 14(23), 7996. 3. Feng Hong, Hailin Tian , Xi Yuan, Shuchang Liu, Qintian Peng, Yan Shi, Lei Jin, Liqun Ye, Jinping Jia d, Diwen Ying, Thomas Stephen Ramsey, Yingping Huang. CFD-assisted modeling of the hydrodynamic cavitation reactors for wastewater treatment - A review. Journal of Environmental Management Volume 321, 1 November 2022, 115982 4. Shalini S. Arya,a,*Pavankumar R. ore,a ayur R. Ladole,b Kakoli Pegu,a and Aniruddha B. Panditc. Non-thermal, energy efficient hydrodynamic cavitation for food processing, process intensification and extraction of natural bioactives: A review. Ultrason Sonochem. 2023 Aug; 98: 106504. 5. Liguo Song, Yuhang Wei, Chengqi Deng, Jingang Yang, Hao Sui, Feng Guo, Lingrun Meng, Xingda Zhao, Shiping Wei, Deping Sun, Zhitao Han, Minyi Xu and Xinxiang Pan. A Novel Method Based on Hydrodynamic Cavitation for Improving Nitric Oxide Removal Performance of NaClO2 6. Tatiana Vitenko, Paweł Droździel, Anna Rudawska. Industrial usage of hydrodynamic cavitation device. Advances in Science and TechnologyResearch JournalVolume 12, No. 3, September 2018, pages 158–167. 7. Viten’ko, T. ., Gumnitskii, Y. . ass transfer during dissolution of solids using hydrodynamic cavitation devices. Theor Found Chem Eng 40, 598–603 (2006). https://doi.org/10.1134/S0040579506060078 8. Haoxuan Zheng, Ying Zheng, Jesse Zhu. Recent Developments in Hydrodynamic Cavitation Reactors: Cavitation Mechanism, Reactor Design, and Applications. Engineering Volume 19, December 2022, Pages 180-198. 9. Drozdziel, P.; Vitenko, T.; Voroshchuk, V.; Narizhnyy, S.; Snizhko, O. Discrete-Impulse Energy Supply in Milk and Dairy Product Processing. Materials 2021, 14, 4181. https://doi.org/10.3390/ma14154181 |
| Typ zawartości: | Conference Abstract |
| Występuje w kolekcjach: | XІІ Міжнародна науково-практична конференція молодих учених та студентів „Актуальні задачі сучасних технологій“ (2023) |
Pliki tej pozycji:
| Plik | Opis | Wielkość | Format | |
|---|---|---|---|---|
| MNPK_2023_Vitenko_D-Hydrodynamic_cavitation_273-274.pdf | 716,33 kB | Adobe PDF | Przeglądanie/Otwarcie | |
| MNPK_2023_Vitenko_D-Hydrodynamic_cavitation_273-274.djvu | 35,68 kB | DjVu | Przeglądanie/Otwarcie | |
| MNPK_2023_Vitenko_D-Hydrodynamic_cavitation_273-274__COVER.png | 529,78 kB | image/png | Przeglądanie/Otwarcie |
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