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Ultrasound measurements to monitor the specific gravity of food batters

Ultrasound measurements to monitor the specific gravity of food batters
Ultrasound measurements to monitor the specific gravity of food batters
This paper describes the design and application of a low cost ultrasound system to monitor the specific gravity of batter as it is mixed. The quantity of air is believed to be the main factor in determining the quality of the finished product and specific gravity measurement is common for assessing the quality and progress of the mixing process. A probe is designed to allow measurements in reflection and the relationship of ultrasound gain to specific gravity determined theoretically and justified experimentally. Operation was conducted in pulsed mode using a nominally 2.25 MHz, 15 mm diameter transducer. The work may have application to measurements on industrial sludges in which similar material properties are observed.
ultrasound, bubbles, aerated foams, specific gravity
0260-8774
317-324
Fox, Paul
d43945f5-b449-4314-8225-76e73238436a
Probert-Smith, Penny
8b574ff8-5964-4e94-bcac-6fdd2dde27be
Sahi, Sarab
1760fca3-a75d-48b5-9863-2ddf30972c15
Fox, Paul
d43945f5-b449-4314-8225-76e73238436a
Probert-Smith, Penny
8b574ff8-5964-4e94-bcac-6fdd2dde27be
Sahi, Sarab
1760fca3-a75d-48b5-9863-2ddf30972c15

Fox, Paul, Probert-Smith, Penny and Sahi, Sarab (2004) Ultrasound measurements to monitor the specific gravity of food batters. Journal of Food Engineering, 65 (3), 317-324. (doi:10.1016/j.jfoodeng.2004.01.028).

Record type: Article

Abstract

This paper describes the design and application of a low cost ultrasound system to monitor the specific gravity of batter as it is mixed. The quantity of air is believed to be the main factor in determining the quality of the finished product and specific gravity measurement is common for assessing the quality and progress of the mixing process. A probe is designed to allow measurements in reflection and the relationship of ultrasound gain to specific gravity determined theoretically and justified experimentally. Operation was conducted in pulsed mode using a nominally 2.25 MHz, 15 mm diameter transducer. The work may have application to measurements on industrial sludges in which similar material properties are observed.

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More information

Published date: 2004
Keywords: ultrasound, bubbles, aerated foams, specific gravity

Identifiers

Local EPrints ID: 28447
URI: http://eprints.soton.ac.uk/id/eprint/28447
DOI: doi:10.1016/j.jfoodeng.2004.01.028
ISSN: 0260-8774
PURE UUID: 66d253dc-5aea-4ef3-bf4f-9742a051c00f

Catalogue record

Date deposited: 02 May 2006
Last modified: 15 Mar 2024 07:25

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Contributors

Author: Paul Fox
Author: Penny Probert-Smith
Author: Sarab Sahi

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