Measuring the Presence of Wetness in Vapour Flow Using Optical Imaging Technique

Ian Kemp; Angad Panesar

doi:10.1109/ICSIP65915.2025.11171525

Measuring the Presence of Wetness in Vapour Flow Using Optical Imaging Technique

Research output: Chapter in Book/Conference proceeding with ISSN or ISBN › Conference contribution with ISSN or ISBN › peer-review

Abstract

Two-phase flows consisting of vapour and liquid, are critical for the efficient operation of energy transfer and energy storage systems. This study demonstrates the use of the optical imaging technique of shadowgraphy, combined with a
custom-developed image processing algorithm, to enable real-time, non-invasive assessment of the quality of two-phase flows. By mining data from high-speed imaging and applying pattern analysis and recognition techniques within ImageJ, vapour quality was accurately estimated at the onset of wetness in steam flow conditions. Measurements at 50 m/s flow velocity and 1.3 bar pressure revealed a vapour content of 0.983, validated against condensate trap and mass flow balanced data. The presented methodology advances optical measurement technique for twophase flows, which offers potential in field-based process control requiring accurate fluid status characterisation.

Original language	English
Title of host publication	2025 10th International Conference on Signal and Image Processing, ICSIP 2025
Publisher	IEEE
Pages	284-288
Number of pages	5
ISBN (Electronic)	9798331536992
ISBN (Print)	9798331536992, 9798331536985
DOIs	https://doi.org/10.1109/ICSIP65915.2025.11171525
Publication status	Published - 6 Oct 2025
Event	10th International Conference on Signal and Image Processing - Wuxi, China Duration: 12 Jul 2025 → 14 Jul 2025 https://www.icsip.org/2025.html

Publication series

Name	2025 10th International Conference on Signal and Image Processing, ICSIP 2025

Conference

Conference	10th International Conference on Signal and Image Processing
Abbreviated title	ICSIP 2025
Country/Territory	China
City	Wuxi
Period	12/07/25 → 14/07/25
Internet address	https://www.icsip.org/2025.html

Bibliographical note

Publisher Copyright:
© 2025 IEEE.

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10.1109/ICSIP65915.2025.11171525

IEEE-Measuring the Presence of Wetness in Vapour Flow Using Optical Imaging TechniqueAccepted author manuscript, 502 KBLicence: CC BY

Cite this

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title = "Measuring the Presence of Wetness in Vapour Flow Using Optical Imaging Technique",

abstract = "Two-phase flows consisting of vapour and liquid, are critical for the efficient operation of energy transfer and energy storage systems. This study demonstrates the use of the optical imaging technique of shadowgraphy, combined with a custom-developed image processing algorithm, to enable real-time, non-invasive assessment of the quality of two-phase flows. By mining data from high-speed imaging and applying pattern analysis and recognition techniques within ImageJ, vapour quality was accurately estimated at the onset of wetness in steam flow conditions. Measurements at 50 m/s flow velocity and 1.3 bar pressure revealed a vapour content of 0.983, validated against condensate trap and mass flow balanced data. The presented methodology advances optical measurement technique for twophase flows, which offers potential in field-based process control requiring accurate fluid status characterisation.",

author = "Ian Kemp and Angad Panesar",

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Kemp, I & Panesar, A 2025, Measuring the Presence of Wetness in Vapour Flow Using Optical Imaging Technique. in 2025 10th International Conference on Signal and Image Processing, ICSIP 2025. 2025 10th International Conference on Signal and Image Processing, ICSIP 2025, IEEE, pp. 284-288, 10th International Conference on Signal and Image Processing, Wuxi, China, 12/07/25. https://doi.org/10.1109/ICSIP65915.2025.11171525

Measuring the Presence of Wetness in Vapour Flow Using Optical Imaging Technique. / Kemp, Ian ; Panesar, Angad.
2025 10th International Conference on Signal and Image Processing, ICSIP 2025. IEEE, 2025. p. 284-288 (2025 10th International Conference on Signal and Image Processing, ICSIP 2025).

Research output: Chapter in Book/Conference proceeding with ISSN or ISBN › Conference contribution with ISSN or ISBN › peer-review

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AU - Kemp, Ian

AU - Panesar, Angad

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N2 - Two-phase flows consisting of vapour and liquid, are critical for the efficient operation of energy transfer and energy storage systems. This study demonstrates the use of the optical imaging technique of shadowgraphy, combined with a custom-developed image processing algorithm, to enable real-time, non-invasive assessment of the quality of two-phase flows. By mining data from high-speed imaging and applying pattern analysis and recognition techniques within ImageJ, vapour quality was accurately estimated at the onset of wetness in steam flow conditions. Measurements at 50 m/s flow velocity and 1.3 bar pressure revealed a vapour content of 0.983, validated against condensate trap and mass flow balanced data. The presented methodology advances optical measurement technique for twophase flows, which offers potential in field-based process control requiring accurate fluid status characterisation.

AB - Two-phase flows consisting of vapour and liquid, are critical for the efficient operation of energy transfer and energy storage systems. This study demonstrates the use of the optical imaging technique of shadowgraphy, combined with a custom-developed image processing algorithm, to enable real-time, non-invasive assessment of the quality of two-phase flows. By mining data from high-speed imaging and applying pattern analysis and recognition techniques within ImageJ, vapour quality was accurately estimated at the onset of wetness in steam flow conditions. Measurements at 50 m/s flow velocity and 1.3 bar pressure revealed a vapour content of 0.983, validated against condensate trap and mass flow balanced data. The presented methodology advances optical measurement technique for twophase flows, which offers potential in field-based process control requiring accurate fluid status characterisation.

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BT - 2025 10th International Conference on Signal and Image Processing, ICSIP 2025

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T2 - 10th International Conference on Signal and Image Processing

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Measuring the Presence of Wetness in Vapour Flow Using Optical Imaging Technique

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