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Theoretical background for a potential real time quantification of gas bubbles in pipelines

Theoretical background for a potential real time quantification of gas bubbles in pipelines
Theoretical background for a potential real time quantification of gas bubbles in pipelines
There is a need to measure the quantity of gas bubbles flowing in liquid-filled pipelines in many power, processing and manufacturing industries. This paper outlines the theoretical foundation for one aspect of a candidate bubble detector technique that was commissioned for Oak Ridge ational Laboratory’s Spallation Neutron SourceTarget Test Facility (ORNL SPS TTF).
335
Institute of Sound and Vibration Research, University of Southampton
Leighton, T.G.
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Baik, K.
7b09d8e1-38a7-4f55-ae5a-1e6bea5bcb3f
Jiang, J.
add7e4fb-88e6-4470-af15-38d4a61456d7
Leighton, T.G.
5686f03c-4744-47f0-a3b3-ace0b7be06b4
Baik, K.
7b09d8e1-38a7-4f55-ae5a-1e6bea5bcb3f
Jiang, J.
add7e4fb-88e6-4470-af15-38d4a61456d7

Leighton, T.G., Baik, K. and Jiang, J. (2014) Theoretical background for a potential real time quantification of gas bubbles in pipelines (ISVR Technical Report 335, 335), Southampton. Institute of Sound and Vibration Research, University of Southampton, 20pp.

Record type: Book

Abstract

There is a need to measure the quantity of gas bubbles flowing in liquid-filled pipelines in many power, processing and manufacturing industries. This paper outlines the theoretical foundation for one aspect of a candidate bubble detector technique that was commissioned for Oak Ridge ational Laboratory’s Spallation Neutron SourceTarget Test Facility (ORNL SPS TTF).

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Published date: 1 July 2014

Identifiers

Local EPrints ID: 435402
URI: http://eprints.soton.ac.uk/id/eprint/435402
PURE UUID: d42b5d89-b3d4-4b97-b4bf-db924741bc2c

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Date deposited: 05 Nov 2019 17:30
Last modified: 16 Mar 2024 05:01

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Contributors

Author: T.G. Leighton
Author: K. Baik
Author: J. Jiang

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