Spatiotemporal laser speckle flowmetry based on elastic-walled U-shaped tubing apparatus: optical method for urinary flow measurement
Spatiotemporal laser speckle flowmetry based on elastic-walled U-shaped tubing apparatus: optical method for urinary flow measurement
We propose an optical method for uroflowmetry, exploiting the laser speckle contrast imaging (LSCI) technique onto an intermediate tubing apparatus having an elastic wall that can sensitively respond to flow-induced shedding vortices. Based on the method, we devised and fabricated an elastic-walled U-shaped tubing apparatus (EWUSTA), using the three-dimensional printing technique. We utilized the spatiotemporal contrast scheme for the LSCI as a fast and reliable computational algorithm. We investigated three different materials of flex-vinyl, ninja-flex, and natural rubber latex for the elastic wall of the EWUSTA in steady flow conditions, and verified that their optimal operational ranges could extend up to 7, 15, and 25 ml/s, respectively. We characterized the natural-rubber-latex-based EWUSTA in dynamic flow conditions in comparison with a commercial reservoir-weight-transducer-based gravimetric flowmeter, and verified its feasibility. We stress that the proposed method can offer precise and accurate information on flow dynamics. In addition, we found that the upper limit of the optimal operational range of the proposed apparatus had strong correlation with the tensile strength of the elastic-wall material. We reckon that the proposed and demonstrated method has great potential not only for uroflowmetry but also for other flow-related medical and industrial applications.
flow-induced vibration, laser speckle contrast imaging, laser speckle flowmetry, uroflowmetry, vortex shedding
1-9
Hong, Seungsoo
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Kim, Hyuntai
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Park, Kyoungyoon
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Kwon, Youngchul
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Chang, Hanbyul
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Piao, Songzhe
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Lee, Young Ju
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Oh, Seung June
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Jeong, Yoonchan
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October 2018
Hong, Seungsoo
2ba550de-1643-431a-8b74-1e6b9c48451b
Kim, Hyuntai
cfbf9241-6bb7-4738-8e2d-4fbc5c1217cc
Park, Kyoungyoon
ab6b4ed5-ae97-444f-8ffa-6f19ad7bb575
Kwon, Youngchul
0fe0d4bc-a023-40f4-a6bc-08bb69736ffe
Chang, Hanbyul
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Piao, Songzhe
fbdabbf2-4190-44fb-a5be-cb96a0d8c873
Lee, Young Ju
d42e5463-9baf-4f07-8d7d-2eab49d66354
Oh, Seung June
e4a8ee10-b729-49ec-8bdb-5cd3fb73555d
Jeong, Yoonchan
1c4007b7-fc94-4f7d-a080-929d40946902
Hong, Seungsoo, Kim, Hyuntai, Park, Kyoungyoon, Kwon, Youngchul, Chang, Hanbyul, Piao, Songzhe, Lee, Young Ju, Oh, Seung June and Jeong, Yoonchan
(2018)
Spatiotemporal laser speckle flowmetry based on elastic-walled U-shaped tubing apparatus: optical method for urinary flow measurement.
Optical Engineering, 57 (10), , [104110].
(doi:10.1117/1.OE.57.10.104110).
Abstract
We propose an optical method for uroflowmetry, exploiting the laser speckle contrast imaging (LSCI) technique onto an intermediate tubing apparatus having an elastic wall that can sensitively respond to flow-induced shedding vortices. Based on the method, we devised and fabricated an elastic-walled U-shaped tubing apparatus (EWUSTA), using the three-dimensional printing technique. We utilized the spatiotemporal contrast scheme for the LSCI as a fast and reliable computational algorithm. We investigated three different materials of flex-vinyl, ninja-flex, and natural rubber latex for the elastic wall of the EWUSTA in steady flow conditions, and verified that their optimal operational ranges could extend up to 7, 15, and 25 ml/s, respectively. We characterized the natural-rubber-latex-based EWUSTA in dynamic flow conditions in comparison with a commercial reservoir-weight-transducer-based gravimetric flowmeter, and verified its feasibility. We stress that the proposed method can offer precise and accurate information on flow dynamics. In addition, we found that the upper limit of the optimal operational range of the proposed apparatus had strong correlation with the tensile strength of the elastic-wall material. We reckon that the proposed and demonstrated method has great potential not only for uroflowmetry but also for other flow-related medical and industrial applications.
Text
104110_1
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More information
Accepted/In Press date: 4 October 2018
e-pub ahead of print date: 22 October 2018
Published date: October 2018
Keywords:
flow-induced vibration, laser speckle contrast imaging, laser speckle flowmetry, uroflowmetry, vortex shedding
Identifiers
Local EPrints ID: 426075
URI: http://eprints.soton.ac.uk/id/eprint/426075
ISSN: 0091-3286
PURE UUID: 50c80bd0-8bb9-45ee-92de-3127116d33a4
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Date deposited: 13 Nov 2018 17:30
Last modified: 05 Jun 2024 18:52
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Contributors
Author:
Seungsoo Hong
Author:
Hyuntai Kim
Author:
Kyoungyoon Park
Author:
Youngchul Kwon
Author:
Hanbyul Chang
Author:
Songzhe Piao
Author:
Young Ju Lee
Author:
Seung June Oh
Author:
Yoonchan Jeong
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