...
Experiment
...
1:
...
February
...
20, 2010
Setup
This experiment consisted of one 10' Manifold with 1 in. holes drilled every 5 cm on one side of the pipe. This resulted in an Am/Avc = 1.
Procedure
| Wiki Markup |
|---|
2010 h2. Procedure {float:right|border=2px solid black} !Picture1vprofile.jpg|width=450px! h5. Figure 1: Example of the Velocity Profile across a port {float} |
The
...
main
...
objective
...
of
...
the
...
lab
...
experiments
...
was
...
to
...
measure
...
the
...
average
...
water
...
velocity
...
coming
...
out
...
of
...
the
...
ports
...
in
...
the
...
vena
...
contracta
...
region.
...
Due
...
to
...
difficulty
...
to
...
ensure
...
that
...
the
...
measured
...
point
...
was
...
the
...
point
...
interest,
...
three
...
measurements
...
were
...
taken
...
for
...
each
...
port.
...
One
...
measurement
...
was
...
done
...
in
...
the
...
center
...
of
...
the
...
port
...
and
...
one
...
to
...
each
...
side
...
of
...
the
...
port,
...
1cm
...
apart.
...
The
...
purpose
...
of
...
the
...
three
...
measurements
...
was
...
to
...
graph
...
an
...
approximate
...
flow
...
profile
...
across
...
each
...
port
...
and
...
according
...
to
...
the
...
results
...
estimate
...
what
...
would
...
be
...
the
...
water
...
flow
...
velocity
...
in
...
the
...
vena
...
contracta
...
region.
...
An
...
example
...
of
...
the
...
graph
...
flow
...
profile
...
for
...
each
...
port
...
is
...
shown
...
in
...
the
...
following
...
graph.
...
The highest velocity estimated from the equation obtained from the trend line was taken as the velocity in the vena contracta. Although this value is not correct, the relative values between ports could give us good idea what is the actual behavior of the velocity through the ports.
For this experiment measurements were taken in five ports (3, 16, 27, 38 and 52) and each measurement had around 1 minute of data information.
Results & Discussion
The results of our first experiment for a uniform manifold were not what we expected. Due to the expectation of pressure recovery dominating major losses (friction inside the manifold) we had expected the velocity coming out of the ports to actually increase along the length of the manifold. See Figure 2 for a graph of the theoretical results that we expected. However, once the maximum velocity for each port was plotted against its distance down the manifold (see graph) it seemed that just the opposite trend was true. The velocity appeared to have peaked early on in the manifold and then gradually decreased after that.
Figure 2. A graph of theoretical results assuming the pressure recovery phenomena and assuming no phenomena, observed results
After comparing the lab results with the expected theoretical results and discussing the experimental procedure between Monroe and the group, we conclude that the experiment's measurement procedure was inaccurate and questionable. These results could not give us strong arguments to prove false the presence of pressure recovery in the manifold.
Taking this into account the next experiment was to be done with more measurement points per port and less separation between measurements in order to reduce ambiguity of the results and understand water flow behavior inside the manifold in a more precise way.