Naturally occurring pressure fluctuations have been observed in
two-phase flows by a number of researchers for example Matsui [1984].
This thesis Investigates the nature of these pressure fluctuations
within vertically upward bubbly two-phase flows with a view to
developing a novel non-intrusive pressure correlation technique for
use downhole to monitor the area average dispersed phase velocity, Vg.
To date non-intrusive correlation flow monitoring techniques suitable
for use downhole exhibit a non-uniform field sensitivity
characteristic which when correlated between two points reflects the
velocity of the dispersed phase within the stronger sensing region.
Four sources of pressure fluctuations were Identified In the
present study, these being temporal variations in the average gas void
fraction a(t), variations in the convected pressure field surrounding
a moving bubble, turbulence generated by the wake of a bubble and
background turbulence in the continuous phase. Magnitudes and
structure length scales of these pressure sources were evaluated
differentially at two points in a continuous fluid using simple models
and it was found that pressure fluctuations associated with a bubbles
motion close to the measurement points dominate the pressure signal.
It was also found that the magnitude of pressure fluctuations
associated with a bubble's motion decreases rapidly with increasing
distance from the bubble and the structure length scale caused by this
effect Is of the order of the tapping separation distance.
Using numerical simulation techniques and a recirculating
air/water flow loop with a test section diameter of 77.8mm, (both of
which were developed in this thesis) differential pressure
fluctuations generated by an upwardly flowing bubbly two-phase flow
w ere studied. Superficial gas and liquid velocities up to 0.35m/s
and 1.5m/s respectively and-. average gas void fractions up to 25% were
covered. It was concluded -t hat. pressure fluctuations caused by bubble
motion near the pipe wall dominate` the, differential pressure signal.
The... autocorrelogram of these signals is considered to be related to
tie 'bubble velöcity within the'entrapped bubble layer near the pipe
wall, which are observed to travel at an almost '.c onstant velocity
independent of the continuous phase velocity. Cross correlation of
two pressure signals are indicated,,, to be related to the convected
bubble velocity of bubbles outside the entrapped bubble layer which is
related to Vg.
Date of Award | 1992 |
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Original language | English |
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Awarding Institution | |
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Sponsors | Schlumberger Cambridge Research Ltd |
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PRESSURE FLUCTUATIONS IN TWO-PHASE FLOWS
Samways, A. L. (Author). 1992
Student thesis: PhD