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An investigation of liquid velocity measurement using PZT cylinders

Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2006. / A novel ultrasonic velocimeter was developed in this study using a single element PZT
cylinder encapsulated within an isothermal cavity. The rig was designed to hold a small
sample volume of test liquid (typically less than 0.2ml), as a prerequisite for biological
application. An admittance spectrum for the liquid filled cavity displayed sharp piezoelectric
modes indicating strong coupling between the cylinder and liquid. This coupling
was further improved by using liquid soap as a coupling agent. The phase velocity was
measured, using the change in frequency associated with change in acoustic mode number.
Early results indicated a change in frequency, with mode number decrease over
the superimposed piezoelectric resonance providing a skewed value for phase velocity.
This problem is evidenced in the literature precluding continuous wave interferometry
as a realisable means of measuring phase velocity. This study examines the common
problem of frequency pulling and resonant interaction between acoustic and piezoelectric
modes. For the first time an alternative is shown to traditional "electro-acoustic"
models, utilising an extension of Mason's transmission line model with the addition of a
"mechanical-acoustic" transformer to represent energy coupling between the piezoelectric
and surrounding liquid. It was found the transformer coupling coefficient could be described
as the inner surface area of the cylinder. In an attempt to quantify the behaviour
of this model it has been simplified into an "electro-acoustic" equivalent lumped circuit
elements. Each liquid mode is represented as a series tuned LeR circuit.
The solution to the frequency pulling was unravelled by implementing a stochastic optimiser (adaptive mutation breeder algorithm) to predict the coupling coefficient between mechanical
and acoustic modes. It also predicts acoustic equivalent circuit parameters and further
utilise it to extract the velocity of sound from the test liquid. Three test liquids were
evaluated including water, FC43 and FC75 at a constant temperature of 30 °C±O.Ol "C.
Initial results indicate a strong correlation between the model and experiment with accumulative
admittance errors falling below 5%. Subsequently it was possible to achieve
phase velocity measurements with a "worst case" standard deviation of less than 3.74.
It has been the hypothesis of this study to show, in concept, that inline tube velocimeter
is plausible using continuous wave cylindrical interferometry. / National Research Foundation

Identiferoai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:cput/oai:localhost:20.500.11838/2209
Date January 2006
CreatorsChang, Yao-Ting
ContributorsDavies, J, Cape Peninsula University of Technology. Faculty of Engineering. Dept. of Electrical, Electronic and Computer Engineering.
PublisherCape Peninsula University of Technology
Source SetsSouth African National ETD Portal
Languageen_ZA
Detected LanguageEnglish
TypeThesis
Rightshttp://creativecommons.org/licenses/by-nc-sa/3.0/za/

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