Effect of ruptured cavitated bubble cluster on the extent of the cell deformation by ultrasound

In this paper, the bubble-cell model is presented. The effects of the spacing between the bubble population and the cell, the radius of the bubble and the bubble medium on the degree of cell deformation were investigated by solving the Helmholtz equation and the equilibrium of motion equation using...

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Autores principales: Peilin Cao, Changchun Hao, Binbin Li, Hao Jiang, Yongfeng Liu
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Lenguaje:EN
Publicado: Elsevier 2021
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Acceso en línea:https://doaj.org/article/94129bf211f04b2b9365e42057c2220c
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spelling oai:doaj.org-article:94129bf211f04b2b9365e42057c2220c2021-12-02T04:59:56ZEffect of ruptured cavitated bubble cluster on the extent of the cell deformation by ultrasound1350-417710.1016/j.ultsonch.2021.105843https://doaj.org/article/94129bf211f04b2b9365e42057c2220c2021-12-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S1350417721003850https://doaj.org/toc/1350-4177In this paper, the bubble-cell model is presented. The effects of the spacing between the bubble population and the cell, the radius of the bubble and the bubble medium on the degree of cell deformation were investigated by solving the Helmholtz equation and the equilibrium of motion equation using COMSOL Multiphysis@ software. The ultrasonic transducer is applied in a round bottom flask with the bubble-cell model on the side of the ultrasonic transducer. When the distance between the bubble cluster and the cell gradually increases, the extent of deformation of the cell is reflected as first increasing and then decreasing, reaching the maximum deformation at D = 2. When the radius of the bubble is changed, there is a “constant frequency” at low frequency ultrasound in any distance case, at which the cell deformation will be violent. However, when the bubble medium is changed, there is no significant change in the degree of deformation of the cells. In other words, changes in the structure of the bubble-cell model affect the degree of cell deformation, but without structural changes, the degree of cell deformation changes very little.Peilin CaoChangchun HaoBinbin LiHao JiangYongfeng LiuElsevierarticleCavitationSimulationCell deformationConstant FrequencyChemistryQD1-999Acoustics. SoundQC221-246ENUltrasonics Sonochemistry, Vol 80, Iss , Pp 105843- (2021)
institution DOAJ
collection DOAJ
language EN
topic Cavitation
Simulation
Cell deformation
Constant Frequency
Chemistry
QD1-999
Acoustics. Sound
QC221-246
spellingShingle Cavitation
Simulation
Cell deformation
Constant Frequency
Chemistry
QD1-999
Acoustics. Sound
QC221-246
Peilin Cao
Changchun Hao
Binbin Li
Hao Jiang
Yongfeng Liu
Effect of ruptured cavitated bubble cluster on the extent of the cell deformation by ultrasound
description In this paper, the bubble-cell model is presented. The effects of the spacing between the bubble population and the cell, the radius of the bubble and the bubble medium on the degree of cell deformation were investigated by solving the Helmholtz equation and the equilibrium of motion equation using COMSOL Multiphysis@ software. The ultrasonic transducer is applied in a round bottom flask with the bubble-cell model on the side of the ultrasonic transducer. When the distance between the bubble cluster and the cell gradually increases, the extent of deformation of the cell is reflected as first increasing and then decreasing, reaching the maximum deformation at D = 2. When the radius of the bubble is changed, there is a “constant frequency” at low frequency ultrasound in any distance case, at which the cell deformation will be violent. However, when the bubble medium is changed, there is no significant change in the degree of deformation of the cells. In other words, changes in the structure of the bubble-cell model affect the degree of cell deformation, but without structural changes, the degree of cell deformation changes very little.
format article
author Peilin Cao
Changchun Hao
Binbin Li
Hao Jiang
Yongfeng Liu
author_facet Peilin Cao
Changchun Hao
Binbin Li
Hao Jiang
Yongfeng Liu
author_sort Peilin Cao
title Effect of ruptured cavitated bubble cluster on the extent of the cell deformation by ultrasound
title_short Effect of ruptured cavitated bubble cluster on the extent of the cell deformation by ultrasound
title_full Effect of ruptured cavitated bubble cluster on the extent of the cell deformation by ultrasound
title_fullStr Effect of ruptured cavitated bubble cluster on the extent of the cell deformation by ultrasound
title_full_unstemmed Effect of ruptured cavitated bubble cluster on the extent of the cell deformation by ultrasound
title_sort effect of ruptured cavitated bubble cluster on the extent of the cell deformation by ultrasound
publisher Elsevier
publishDate 2021
url https://doaj.org/article/94129bf211f04b2b9365e42057c2220c
work_keys_str_mv AT peilincao effectofrupturedcavitatedbubbleclusterontheextentofthecelldeformationbyultrasound
AT changchunhao effectofrupturedcavitatedbubbleclusterontheextentofthecelldeformationbyultrasound
AT binbinli effectofrupturedcavitatedbubbleclusterontheextentofthecelldeformationbyultrasound
AT haojiang effectofrupturedcavitatedbubbleclusterontheextentofthecelldeformationbyultrasound
AT yongfengliu effectofrupturedcavitatedbubbleclusterontheextentofthecelldeformationbyultrasound
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