Experimental studies of bubble dynamics inside a corner

Jie Cui; Zhi Peng Chen; Qianxi Wang; Tao Ran Zhou; Callan Corbett

doi:10.1016/j.ultsonch.2019.104951

Experimental studies of bubble dynamics inside a corner

Jie Cui, Zhi Peng Chen, Qianxi Wang^*, Tao Ran Zhou, Callan Corbett

^*Corresponding author for this work

Mathematics

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

The dynamics of a bubble near a corner formed by two flat rigid boundaries (walls), is studied experimentally using a spark-generated bubble. The expansion, collapse, rebound, re-collapse and migration of the bubble, along with jetting and protrusion, are captured using a high-speed camera. Our experimental observations reveal the behaviour of the bubble in terms of the corner angle and the dimensionless standoff distances to the near and far walls in terms of the maximum bubble radius. The bubble remains approximately spherical during expansion except for its surface becoming flattened when in close proximity to a wall. When a bubble is initiated at the bisector of the two walls, the bubble becomes oblate along the bisector during the late stages of collapse. A jet forms towards the end of collapse, pointing to the corner. The closer the bubble to the two walls, the more oblate along the bisector the bubble becomes, and the wider the jet. A bubble initiated near one of the two walls is mainly influenced by the nearer wall. The jet formed is pointing to the near wall but inclined towards the corner. After the jet penetrates through the bubble surface, the bubble becomes a bubble ring, and a bubble protrusion forms following the jet. The bubble ring collapses and subsequently disappears, while the protrusion firstly expands, and then collapses and migrates to the corner.

Original language	English
Article number	104951
Journal	Ultrasonics Sonochemistry
Volume	64
DOIs	https://doi.org/10.1016/j.ultsonch.2019.104951
Publication status	Published - Jun 2020

Bibliographical note

Funding Information:
This work was partially supported by the Natural Science Foundation of China (Grant No. 51779111/51579122), the Key University Science Research Project of Jiangsu Province (Grant no. 17KJA580002/17KJA416003) and Engineering and Physical Sciences Research Council (UK) (EPSRC) Grant No. EP/P015743/1.

Funding Information:
This work was partially supported by the Natural Science Foundation of China (Grant No. 51779111 / 51579122 ), the Key University Science Research Project of Jiangsu Province (Grant no. 17KJA580002/17KJA416003) and Engineering and Physical Sciences Research Council (UK) (EPSRC) Grant No. EP/P015743/1 .

Publisher Copyright:
© 2020 Elsevier B.V.

Keywords

Bubble dynamics inside a corner
Bubble jetting
Bubble protrusion
Bubble ring
Spark generated bubble

ASJC Scopus subject areas

Chemical Engineering (miscellaneous)
Environmental Chemistry
Radiology Nuclear Medicine and imaging
Acoustics and Ultrasonics
Organic Chemistry
Inorganic Chemistry

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10.1016/j.ultsonch.2019.104951

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title = "Experimental studies of bubble dynamics inside a corner",

abstract = "The dynamics of a bubble near a corner formed by two flat rigid boundaries (walls), is studied experimentally using a spark-generated bubble. The expansion, collapse, rebound, re-collapse and migration of the bubble, along with jetting and protrusion, are captured using a high-speed camera. Our experimental observations reveal the behaviour of the bubble in terms of the corner angle and the dimensionless standoff distances to the near and far walls in terms of the maximum bubble radius. The bubble remains approximately spherical during expansion except for its surface becoming flattened when in close proximity to a wall. When a bubble is initiated at the bisector of the two walls, the bubble becomes oblate along the bisector during the late stages of collapse. A jet forms towards the end of collapse, pointing to the corner. The closer the bubble to the two walls, the more oblate along the bisector the bubble becomes, and the wider the jet. A bubble initiated near one of the two walls is mainly influenced by the nearer wall. The jet formed is pointing to the near wall but inclined towards the corner. After the jet penetrates through the bubble surface, the bubble becomes a bubble ring, and a bubble protrusion forms following the jet. The bubble ring collapses and subsequently disappears, while the protrusion firstly expands, and then collapses and migrates to the corner.",

keywords = "Bubble dynamics inside a corner, Bubble jetting, Bubble protrusion, Bubble ring, Spark generated bubble",

author = "Jie Cui and Chen, {Zhi Peng} and Qianxi Wang and Zhou, {Tao Ran} and Callan Corbett",

note = "Funding Information: This work was partially supported by the Natural Science Foundation of China (Grant No. 51779111/51579122), the Key University Science Research Project of Jiangsu Province (Grant no. 17KJA580002/17KJA416003) and Engineering and Physical Sciences Research Council (UK) (EPSRC) Grant No. EP/P015743/1. Funding Information: This work was partially supported by the Natural Science Foundation of China (Grant No. 51779111 / 51579122 ), the Key University Science Research Project of Jiangsu Province (Grant no. 17KJA580002/17KJA416003) and Engineering and Physical Sciences Research Council (UK) (EPSRC) Grant No. EP/P015743/1 . Publisher Copyright: {\textcopyright} 2020 Elsevier B.V.",

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doi = "10.1016/j.ultsonch.2019.104951",

language = "English",

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journal = "Ultrasonics Sonochemistry",

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N2 - The dynamics of a bubble near a corner formed by two flat rigid boundaries (walls), is studied experimentally using a spark-generated bubble. The expansion, collapse, rebound, re-collapse and migration of the bubble, along with jetting and protrusion, are captured using a high-speed camera. Our experimental observations reveal the behaviour of the bubble in terms of the corner angle and the dimensionless standoff distances to the near and far walls in terms of the maximum bubble radius. The bubble remains approximately spherical during expansion except for its surface becoming flattened when in close proximity to a wall. When a bubble is initiated at the bisector of the two walls, the bubble becomes oblate along the bisector during the late stages of collapse. A jet forms towards the end of collapse, pointing to the corner. The closer the bubble to the two walls, the more oblate along the bisector the bubble becomes, and the wider the jet. A bubble initiated near one of the two walls is mainly influenced by the nearer wall. The jet formed is pointing to the near wall but inclined towards the corner. After the jet penetrates through the bubble surface, the bubble becomes a bubble ring, and a bubble protrusion forms following the jet. The bubble ring collapses and subsequently disappears, while the protrusion firstly expands, and then collapses and migrates to the corner.

AB - The dynamics of a bubble near a corner formed by two flat rigid boundaries (walls), is studied experimentally using a spark-generated bubble. The expansion, collapse, rebound, re-collapse and migration of the bubble, along with jetting and protrusion, are captured using a high-speed camera. Our experimental observations reveal the behaviour of the bubble in terms of the corner angle and the dimensionless standoff distances to the near and far walls in terms of the maximum bubble radius. The bubble remains approximately spherical during expansion except for its surface becoming flattened when in close proximity to a wall. When a bubble is initiated at the bisector of the two walls, the bubble becomes oblate along the bisector during the late stages of collapse. A jet forms towards the end of collapse, pointing to the corner. The closer the bubble to the two walls, the more oblate along the bisector the bubble becomes, and the wider the jet. A bubble initiated near one of the two walls is mainly influenced by the nearer wall. The jet formed is pointing to the near wall but inclined towards the corner. After the jet penetrates through the bubble surface, the bubble becomes a bubble ring, and a bubble protrusion forms following the jet. The bubble ring collapses and subsequently disappears, while the protrusion firstly expands, and then collapses and migrates to the corner.

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JO - Ultrasonics Sonochemistry

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M1 - 104951

ER -

Experimental studies of bubble dynamics inside a corner

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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