Research of the process of regeneration of activated carbon during filtration drying
| dc.citation.conference | 7th International youth science forum «Litteris et Artibus» | |
| dc.citation.epage | 108 | |
| dc.citation.journalTitle | Litteris et Artibus : матеріали | |
| dc.citation.spage | 107 | |
| dc.contributor.affiliation | Lviv Polytechnic National University | |
| dc.contributor.author | Atamanyuk, Volodymyr | |
| dc.contributor.author | Huzova, Iryna | |
| dc.contributor.author | Gnativ, Zoriana | |
| dc.contributor.author | Hrynkiv, Mykola | |
| dc.contributor.author | Bodnar, Mykola | |
| dc.coverage.placename | Львів | |
| dc.coverage.placename | Lviv | |
| dc.coverage.temporal | 23–25 листопада 2017 року | |
| dc.coverage.temporal | 23–25 November, 2017 | |
| dc.date.accessioned | 2018-04-12T13:06:35Z | |
| dc.date.available | 2018-04-12T13:06:35Z | |
| dc.date.created | 2017-12-23 | |
| dc.date.issued | 2017-12-23 | |
| dc.description.abstract | Heat-mass exchange processes during drying of regenerated activated carbon was to study and determine minimum height of heat-mass exchange zone and time of termination of hot heating agent supply based on criterion equations and heat balance calculations. | |
| dc.format.extent | 107-108 | |
| dc.format.pages | 2 | |
| dc.identifier.citation | Research of the process of regeneration of activated carbon during filtration drying / Volodymyr Atamanyuk, Iryna Huzova, Zoriana Gnativ, Mykola Hrynkiv, Mykola Bodnar // Litteris et Artibus : proceedings, 23–25 November, 2017. — Lviv : Lviv Polytechnic Publishing House, 2017. — P. 107–108. — (6th International academic conference «Chemistry & chemical technology 2017» (CCT-2017)). | |
| dc.identifier.citationen | Research of the process of regeneration of activated carbon during filtration drying / Volodymyr Atamanyuk, Iryna Huzova, Zoriana Gnativ, Mykola Hrynkiv, Mykola Bodnar // Litteris et Artibus : proceedings, 23–25 November, 2017. — Lviv : Lviv Polytechnic Publishing House, 2017. — P. 107–108. — (6th International academic conference «Chemistry & chemical technology 2017» (CCT-2017)). | |
| dc.identifier.isbn | 978-966-941-108-2 | |
| dc.identifier.uri | https://ena.lpnu.ua/handle/ntb/40494 | |
| dc.language.iso | en | |
| dc.publisher | Видавництво Львівської політехніки | |
| dc.publisher | Lviv Polytechnic Publishing House | |
| dc.relation.ispartof | Litteris et Artibus : матеріали, 2017 | |
| dc.relation.ispartof | Litteris et Artibus : proceedings, 2017 | |
| dc.relation.references | [1] C.O. Ania , J.A. Men_endez, J.B. Parra, J.J. Pis, Microwave-induced regeneration of activated carbons polluted with phenol. A comparison with conventional thermal regeneration, Carbon 42 (2004) 1383–7 | |
| dc.relation.references | [2] Zaporozec V.P., "Сentral designer bureau of Nefteaparatury" is Method of mass-transfer. declarant and п patentpossessor. stalemate. 2132221. Russian Federation 1999 June 27. | |
| dc.relation.references | [3] Jennifer A. Banuelos, Francisco J. Rodrigue, Juan Manriquez Rocha, Erika Bustos ,Novel Electro- Fenton Approach for Regeneration of Activated Carbon, Environmental Science & Technology 47(14) (2013) 7927-33. | |
| dc.relation.references | [4] Xitao Liu, Xie Quan, Longli Bo, Shuo Chen, Yazhi Zhao, Simultaneous pentachlorophenol decomposition and granular activated carbon regeneration assisted by microwave irradiation, Carbon 42 (2004) 415–422 | |
| dc.relation.references | [5] E. Sabio, E. Gonzalez, J.F. Gonzalez, C.M. Gonzalez- Garcıa, A. Ramiro, J. Ganan, Thermal regeneration of activated carbon saturated with pnitrophenol, Carbon 42 (2004) 2285–2293. | |
| dc.relation.references | [6] Seung Won Nahma, Wang Geun Shim, Young- Kwon Park, Sang Chai Kim, Thermal and chemical regeneration of spent activated carbon and its adsorption property for toluene, Chemical Engineering Journal 210 (2012) 500–509 | |
| dc.relation.references | [7] Xue Han, Hongfei Lin, Ying Zheng, Regeneration methods to restore carbon adsorptive capacity of dibenzothiophene and neutral nitrogen heteroaromatic compounds, Chemical Engineering Journal 243 (2014) 315–325. | |
| dc.relation.references | [8] Shoufeng Tang, Na Lu, Jie Li, Kefeng Shang, Yan Wu, Improved phenol decomposition and simultaneous regeneration of granular activated carbon by the addition of a titanium dioxide catalyst under a dielectric barrier discharge plasma, Carbon 5 3 ( 2013 ) 3 8 0 –3 9 0. | |
| dc.relation.references | [9] L.N. Melnuk, V.V. Mank, Renewal of adsorption properties of palygorskita after cleaning of spirit solutions, Production of alcohol and liqueur of vodka wares 4(2004) 14-6. | |
| dc.relation.references | [10] L.M. Melnuk, V. Mank, GM Bila, N.A.Tkachuk, Regeneration natural to mordentu and synthetic zeolite of NaX for the repeated use in dehydration of hydroalcoholic solutions, Food industry 4(2005) 53-6. | |
| dc.relation.referencesen | [1] C.O. Ania , J.A. Men_endez, J.B. Parra, J.J. Pis, Microwave-induced regeneration of activated carbons polluted with phenol. A comparison with conventional thermal regeneration, Carbon 42 (2004) 1383–7 | |
| dc.relation.referencesen | [2] Zaporozec V.P., "Sentral designer bureau of Nefteaparatury" is Method of mass-transfer. declarant and p patentpossessor. stalemate. 2132221. Russian Federation 1999 June 27. | |
| dc.relation.referencesen | [3] Jennifer A. Banuelos, Francisco J. Rodrigue, Juan Manriquez Rocha, Erika Bustos ,Novel Electro- Fenton Approach for Regeneration of Activated Carbon, Environmental Science & Technology 47(14) (2013) 7927-33. | |
| dc.relation.referencesen | [4] Xitao Liu, Xie Quan, Longli Bo, Shuo Chen, Yazhi Zhao, Simultaneous pentachlorophenol decomposition and granular activated carbon regeneration assisted by microwave irradiation, Carbon 42 (2004) 415–422 | |
| dc.relation.referencesen | [5] E. Sabio, E. Gonzalez, J.F. Gonzalez, C.M. Gonzalez- Garcıa, A. Ramiro, J. Ganan, Thermal regeneration of activated carbon saturated with pnitrophenol, Carbon 42 (2004) 2285–2293. | |
| dc.relation.referencesen | [6] Seung Won Nahma, Wang Geun Shim, Young- Kwon Park, Sang Chai Kim, Thermal and chemical regeneration of spent activated carbon and its adsorption property for toluene, Chemical Engineering Journal 210 (2012) 500–509 | |
| dc.relation.referencesen | [7] Xue Han, Hongfei Lin, Ying Zheng, Regeneration methods to restore carbon adsorptive capacity of dibenzothiophene and neutral nitrogen heteroaromatic compounds, Chemical Engineering Journal 243 (2014) 315–325. | |
| dc.relation.referencesen | [8] Shoufeng Tang, Na Lu, Jie Li, Kefeng Shang, Yan Wu, Improved phenol decomposition and simultaneous regeneration of granular activated carbon by the addition of a titanium dioxide catalyst under a dielectric barrier discharge plasma, Carbon 5 3 ( 2013 ) 3 8 0 –3 9 0. | |
| dc.relation.referencesen | [9] L.N. Melnuk, V.V. Mank, Renewal of adsorption properties of palygorskita after cleaning of spirit solutions, Production of alcohol and liqueur of vodka wares 4(2004) 14-6. | |
| dc.relation.referencesen | [10] L.M. Melnuk, V. Mank, GM Bila, N.A.Tkachuk, Regeneration natural to mordentu and synthetic zeolite of NaX for the repeated use in dehydration of hydroalcoholic solutions, Food industry 4(2005) 53-6. | |
| dc.rights.holder | © Національний університет “Львівська політехніка”, 2017 | |
| dc.subject | adsorbent | |
| dc.subject | adsorption-desorption processes | |
| dc.subject | heatmass exchange | |
| dc.subject | heating agent | |
| dc.title | Research of the process of regeneration of activated carbon during filtration drying | |
| dc.type | Conference Abstract |
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