laboratory report on sluice gate and hydraulic jump
The procedure in the laboratory is as follows:
For a measured volumetric flow rate, take measurements at the followi
ng cross sections of
channel width, water depth and longitudinal location:
Upstream of sluice gate
Downstream of sluice gate
Start of hydraulic jump
End of hydraulic jump
Prepare a report on your group’s sluice gate and hydrau
lic jump laboratory work.
is to be word processed, under the following headings:
Research methodology (inc.
Apparatus and procedure
and noted Errors)
inc. discussion of validity of results
Comments on health and safety
Format for word processed work
must be used. The main text must be at
12 point font
. Larger fonts may be used for section headings.
must be 40mm left (binding margin) other three margins must be 20mm.
The main text must be
to both margins.
Equations and formula
must be centred across the page and
be written in
WORD equation editor
. Equations must be numbered. The equation numbers must be
aligned to the right.
Ensure that your report includes the following:
Sketch of the appearance of the hydraulic jump, and comparison to published
rmation for the calculated value of the upstream Froude number.
Calculation of the depth ratio of the hydraulic jump, and comparison with the
predicted value from the hydraulic jump formula.
Calculation of the length of the jump, as a multiple of the hei
ght, and comparison
with published information.
Graph showing the water surface and computed total energy head lines along the
length of the apparatus, with a discussion of the results.
that a theory section is not required in your report, as this wa
s covered in lectures.
You are not asked to derive formulae from first principles in this report, but just quote the
results you are using for comparison, giving a proper reference to their source.
The relevant learning outcomes from the module specificat
ion are as follows
At the end of this Module, students will be able to:
use quantitative and computational methods to analyse hydraulics from
laboratory and design examples
solve practical and design based problems in hydraulics
owledge and facts; interpret findings and recommendations in
the form of drawings and written reports.
describe basic health and safety issues
The recovery resit coursework (if required) will involve a report based on laboratory data to
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