In-Line Rheometry Based on Ultrasonic Velocity Profiles: Comparison of Data Processing Methods

In-Line Rheometry Based on Ultrasonic Velocity Profiles: Comparison of Data Processing Methods

Ultrasonic Velocity Profiling with Pressure Drop (UVP+PD) is a technique, which allows the measurement of the shear rate dependent viscosity non-invasively in a laminar pipe flow. To assess the performance of different data processing approaches for the extraction of the rheometric values, model flu...

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Bibliographic Details
Main Authors: Birkhofer Beat, Debacker Alban, Russo Simone, Ricci Stefano, Lootens Didier
Format: Article
Language:English
Published: De Gruyter 2012-08-01
Series:Applied Rheology
Subjects:
in-line rheometry
velocity profile
pipe flow
uvp+pd
polymer suspension
Online Access:https://doi.org/10.3933/applrheol-22-44701
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spelling doaj-e9ccde41d04e47bb9ae00ab77c0d0e2f2021-09-06T19:41:55ZengDe GruyterApplied Rheology1617-81062012-08-0122410.3933/applrheol-22-44701In-Line Rheometry Based on Ultrasonic Velocity Profiles: Comparison of Data Processing MethodsBirkhofer Beat0Debacker Alban1Russo Simone2Ricci Stefano3Lootens Didier4Sika Services AG, Tüffenwies 16, 8048Zurich, SwitzerlandSika Technology AG, Tüffenwies 16, 8048Zurich, SwitzerlandSika Technology AG, Tüffenwies 16, 8048Zurich, SwitzerlandDept. of Electronics and Telecommunications, Florence University, Via S. Marta, 3, 50139Florence, ItalySika Technology AG, Tüffenwies 16, 8048Zurich, SwitzerlandUltrasonic Velocity Profiling with Pressure Drop (UVP+PD) is a technique, which allows the measurement of the shear rate dependent viscosity non-invasively in a laminar pipe flow. To assess the performance of different data processing approaches for the extraction of the rheometric values, model fluids are characterized under well defined flow conditions created with a piston setup. Considering the shear rate range available in the pipe flow, a good quantitative agreement is found between the in-line measurements and the off-line measurements made with a rotational rheometer.https://doi.org/10.3933/applrheol-22-44701in-line rheometryvelocity profilepipe flowuvp+pdpolymer suspension
collection DOAJ
language English
format Article
sources DOAJ
author Birkhofer Beat
Debacker Alban
Russo Simone
Ricci Stefano
Lootens Didier
spellingShingle Birkhofer Beat
Debacker Alban
Russo Simone
Ricci Stefano
Lootens Didier
In-Line Rheometry Based on Ultrasonic Velocity Profiles: Comparison of Data Processing Methods
Applied Rheology
in-line rheometry
velocity profile
pipe flow
uvp+pd
polymer suspension
author_facet Birkhofer Beat
Debacker Alban
Russo Simone
Ricci Stefano
Lootens Didier
author_sort Birkhofer Beat
title In-Line Rheometry Based on Ultrasonic Velocity Profiles: Comparison of Data Processing Methods
title_short In-Line Rheometry Based on Ultrasonic Velocity Profiles: Comparison of Data Processing Methods
title_full In-Line Rheometry Based on Ultrasonic Velocity Profiles: Comparison of Data Processing Methods
title_fullStr In-Line Rheometry Based on Ultrasonic Velocity Profiles: Comparison of Data Processing Methods
title_full_unstemmed In-Line Rheometry Based on Ultrasonic Velocity Profiles: Comparison of Data Processing Methods
title_sort in-line rheometry based on ultrasonic velocity profiles: comparison of data processing methods
publisher De Gruyter
series Applied Rheology
issn 1617-8106
publishDate 2012-08-01
description Ultrasonic Velocity Profiling with Pressure Drop (UVP+PD) is a technique, which allows the measurement of the shear rate dependent viscosity non-invasively in a laminar pipe flow. To assess the performance of different data processing approaches for the extraction of the rheometric values, model fluids are characterized under well defined flow conditions created with a piston setup. Considering the shear rate range available in the pipe flow, a good quantitative agreement is found between the in-line measurements and the off-line measurements made with a rotational rheometer.
topic in-line rheometry
velocity profile
pipe flow
uvp+pd
polymer suspension
url https://doi.org/10.3933/applrheol-22-44701
work_keys_str_mv AT birkhoferbeat inlinerheometrybasedonultrasonicvelocityprofilescomparisonofdataprocessingmethods
AT debackeralban inlinerheometrybasedonultrasonicvelocityprofilescomparisonofdataprocessingmethods
AT russosimone inlinerheometrybasedonultrasonicvelocityprofilescomparisonofdataprocessingmethods
AT riccistefano inlinerheometrybasedonultrasonicvelocityprofilescomparisonofdataprocessingmethods
AT lootensdidier inlinerheometrybasedonultrasonicvelocityprofilescomparisonofdataprocessingmethods
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