Electrophoretic Effects for Environmental Safety Technologies: Evacuation of Micro-Particle Conglomerations from the Surfaces

The actuality of the problem of contamination of objects by macro-molecular compounds is a growing problem today (especially given the terrible consequences of the pandemic). In fact, macromolecular complexes are mostly located on the surface layers of the surface covered with fine dust. Therefore,...

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Autores principales: Gerasymov Oleg, Kuryatnikov Vladyslav, Spivak Andrii, Sidletska Liudmyla, Kilian Andrii
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Publicado: EDP Sciences 2021
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Acceso en línea:https://doaj.org/article/1b573d30305e460aab81b6fc8fc068d3
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spelling oai:doaj.org-article:1b573d30305e460aab81b6fc8fc068d32021-11-12T11:44:08ZElectrophoretic Effects for Environmental Safety Technologies: Evacuation of Micro-Particle Conglomerations from the Surfaces2267-124210.1051/e3sconf/202131901076https://doaj.org/article/1b573d30305e460aab81b6fc8fc068d32021-01-01T00:00:00Zhttps://www.e3s-conferences.org/articles/e3sconf/pdf/2021/95/e3sconf_vigisan_01076.pdfhttps://doaj.org/toc/2267-1242The actuality of the problem of contamination of objects by macro-molecular compounds is a growing problem today (especially given the terrible consequences of the pandemic). In fact, macromolecular complexes are mostly located on the surface layers of the surface covered with fine dust. Therefore, the development of technology for the removal of macromolecular components is actually a problem of fine (so we will call it) dust removal. This problem cannot be effectively solved by traditional mechanical removal methods alone, as contaminated objects have a rather complex, not even Euclidian, surface morphology. Therefore, it is important to develop effective technologies based on the use of properties of special configurations of external inhomogeneous electric field and removable components by means of a specially configured inhomogeneous electric field. The paper analyzes modern technologies of fine dust cleaning both mechanically and with the help of external electrical fields under the particular conditions and creation of levitation and electrophoretic motion. It has been found exact solutions of the model, which indicate in favor of the theoretical validity of decontamination technology using electric field with manipulative properties; the conditions of the most effective use of levitation-electrophoretic technology in the tasks of dust cleaning and decontamination, including decontamination of the surface-distributed macromolecular contaminants such as coronaviruses. Index Terms dust pollution dust cleaning levitation electrophoresis macromolecular pollution coronavirusGerasymov OlegKuryatnikov VladyslavSpivak AndriiSidletska LiudmylaKilian AndriiEDP SciencesarticleEnvironmental sciencesGE1-350ENFRE3S Web of Conferences, Vol 319, p 01076 (2021)
institution DOAJ
collection DOAJ
language EN
FR
topic Environmental sciences
GE1-350
spellingShingle Environmental sciences
GE1-350
Gerasymov Oleg
Kuryatnikov Vladyslav
Spivak Andrii
Sidletska Liudmyla
Kilian Andrii
Electrophoretic Effects for Environmental Safety Technologies: Evacuation of Micro-Particle Conglomerations from the Surfaces
description The actuality of the problem of contamination of objects by macro-molecular compounds is a growing problem today (especially given the terrible consequences of the pandemic). In fact, macromolecular complexes are mostly located on the surface layers of the surface covered with fine dust. Therefore, the development of technology for the removal of macromolecular components is actually a problem of fine (so we will call it) dust removal. This problem cannot be effectively solved by traditional mechanical removal methods alone, as contaminated objects have a rather complex, not even Euclidian, surface morphology. Therefore, it is important to develop effective technologies based on the use of properties of special configurations of external inhomogeneous electric field and removable components by means of a specially configured inhomogeneous electric field. The paper analyzes modern technologies of fine dust cleaning both mechanically and with the help of external electrical fields under the particular conditions and creation of levitation and electrophoretic motion. It has been found exact solutions of the model, which indicate in favor of the theoretical validity of decontamination technology using electric field with manipulative properties; the conditions of the most effective use of levitation-electrophoretic technology in the tasks of dust cleaning and decontamination, including decontamination of the surface-distributed macromolecular contaminants such as coronaviruses. Index Terms dust pollution dust cleaning levitation electrophoresis macromolecular pollution coronavirus
format article
author Gerasymov Oleg
Kuryatnikov Vladyslav
Spivak Andrii
Sidletska Liudmyla
Kilian Andrii
author_facet Gerasymov Oleg
Kuryatnikov Vladyslav
Spivak Andrii
Sidletska Liudmyla
Kilian Andrii
author_sort Gerasymov Oleg
title Electrophoretic Effects for Environmental Safety Technologies: Evacuation of Micro-Particle Conglomerations from the Surfaces
title_short Electrophoretic Effects for Environmental Safety Technologies: Evacuation of Micro-Particle Conglomerations from the Surfaces
title_full Electrophoretic Effects for Environmental Safety Technologies: Evacuation of Micro-Particle Conglomerations from the Surfaces
title_fullStr Electrophoretic Effects for Environmental Safety Technologies: Evacuation of Micro-Particle Conglomerations from the Surfaces
title_full_unstemmed Electrophoretic Effects for Environmental Safety Technologies: Evacuation of Micro-Particle Conglomerations from the Surfaces
title_sort electrophoretic effects for environmental safety technologies: evacuation of micro-particle conglomerations from the surfaces
publisher EDP Sciences
publishDate 2021
url https://doaj.org/article/1b573d30305e460aab81b6fc8fc068d3
work_keys_str_mv AT gerasymovoleg electrophoreticeffectsforenvironmentalsafetytechnologiesevacuationofmicroparticleconglomerationsfromthesurfaces
AT kuryatnikovvladyslav electrophoreticeffectsforenvironmentalsafetytechnologiesevacuationofmicroparticleconglomerationsfromthesurfaces
AT spivakandrii electrophoreticeffectsforenvironmentalsafetytechnologiesevacuationofmicroparticleconglomerationsfromthesurfaces
AT sidletskaliudmyla electrophoreticeffectsforenvironmentalsafetytechnologiesevacuationofmicroparticleconglomerationsfromthesurfaces
AT kilianandrii electrophoreticeffectsforenvironmentalsafetytechnologiesevacuationofmicroparticleconglomerationsfromthesurfaces
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