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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
University of Southampton
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.
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. 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: 02 Mar 2026 18:41

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Contributors

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

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