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53:071 Principles of HydraulicsLaboratory Experiment #1Energy and Hydraulic Grade Lines in Water Pipe SystemsLi-Chuan Chen, Marian Muste, and Larry Weber
ObjectiveTo determine the energy and hydraulic grade lines in a pipeline assembly comprising losses due to friction in conduit as well as head losses due to transitions and fittings.
PrincipleBernoulli’s equation
LhzgVpz
gVp
2
22
22
1
21
11
22
EGL 2
HeadEnergy 2
gVzp
HGL Head cPiezometri zp
Apparatus — Standard Pipe
Geometrical characteristics for the pipeline system can be found in the appendices in the handout.
Apparatus — Streamlined Pipe
What are we going to do?We are going to measure the piezometric heads along a pipeline system.
ProceduresBleed the pipe system and tubings.Establish stabilized maximum discharge in the system.Measure the datum.Measure and record the pressure head.Measure the head on weir.Measure the water temperature.
Data SheetWater Temp. (F)Weir Notch Elev. (ft)W.S. Elev. (ft)Q (cfs)
Tap # Station (ft)
Eleva-tion (ft)
Piez. Head
(ft Hg)
Piez. Head
(ft H2O)
Pipe Diam.
(ft)
Vel. Head
(ft H2O)
Energy Head
(ft H2O)Datu
m1234
AnalysisCompute velocity, piezometric, and energy heads at each pressure tap.Plot the energy and hydraulic grade lines.Discuss the energy budget.Discuss sources of experimental errors.Calculate the horsepower consumed by the system.
Result — Standard Pipe
Further ConsiderationCompare the measured values between the pressure taps with computed ones using empirical values found in your hydraulics or fluids textbooks. Explain the discrepancies.
Note — Losses between Tap 5 and 6 through the curved pipe segment should be treated as a lump local loss located at Tap 5.