Problem 4. Hydraulic Jump. Problem When a smooth column of water hits a horizontal plane, it flows...
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![Page 1: Problem 4. Hydraulic Jump. Problem When a smooth column of water hits a horizontal plane, it flows out radially. At some radius, its height suddenly rises.](https://reader036.fdocuments.in/reader036/viewer/2022062800/56649de95503460f94ae39e9/html5/thumbnails/1.jpg)
Problem 4.Problem 4.
Hydraulic JumpHydraulic Jump
![Page 2: Problem 4. Hydraulic Jump. Problem When a smooth column of water hits a horizontal plane, it flows out radially. At some radius, its height suddenly rises.](https://reader036.fdocuments.in/reader036/viewer/2022062800/56649de95503460f94ae39e9/html5/thumbnails/2.jpg)
ProblemProblem
When a smooth column of water hits a When a smooth column of water hits a horizontal plane, it flows out radially. At horizontal plane, it flows out radially. At some radius, its height suddenly rises. some radius, its height suddenly rises. Investigate the nature of the phenomenon. Investigate the nature of the phenomenon. What happens if a liquid more viscous What happens if a liquid more viscous than water is used?than water is used?
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ExperimentExperiment
• Obtaining the effectObtaining the effect
• Parameters:Parameters:
• Liquid densityLiquid density
• Liquid viscosityLiquid viscosity
• Flow rateFlow rate
• Jet heightJet height
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Experiment Experiment cont.cont.
• Measurements:Measurements:
• Dependence of flow velocity on radiusDependence of flow velocity on radius
• Dependence of jump radius on flow rateDependence of jump radius on flow rate
• Dependence of jump radius on viscosityDependence of jump radius on viscosity
• Dependence of jump radius on jet heightDependence of jump radius on jet height
• Jump structure in dependence on velocityJump structure in dependence on velocity
![Page 5: Problem 4. Hydraulic Jump. Problem When a smooth column of water hits a horizontal plane, it flows out radially. At some radius, its height suddenly rises.](https://reader036.fdocuments.in/reader036/viewer/2022062800/56649de95503460f94ae39e9/html5/thumbnails/5.jpg)
ApparatusApparatus
pump
p l a t e
container
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Apparatus Apparatus cont.cont.
![Page 7: Problem 4. Hydraulic Jump. Problem When a smooth column of water hits a horizontal plane, it flows out radially. At some radius, its height suddenly rises.](https://reader036.fdocuments.in/reader036/viewer/2022062800/56649de95503460f94ae39e9/html5/thumbnails/7.jpg)
Viscosity variationViscosity variation
• Water was heated from 20Water was heated from 20˚C to 6˚C to 60˚C0˚C
• The achieved viscosity change was over The achieved viscosity change was over 50%50%
• Dependence of viscosity on temperature:Dependence of viscosity on temperature:
Te1730
610693.2
S. Gleston, Udžbenik fizičke hemije, NKB 1967
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Viscosity variation Viscosity variation cont.cont.
thermometer
heater
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Velocity measurementVelocity measurement
• A Pitot tube was usedA Pitot tube was used
H
HHgv 2
v – flow velocity
H – water height in tube
ΔH – cappilary correction
![Page 10: Problem 4. Hydraulic Jump. Problem When a smooth column of water hits a horizontal plane, it flows out radially. At some radius, its height suddenly rises.](https://reader036.fdocuments.in/reader036/viewer/2022062800/56649de95503460f94ae39e9/html5/thumbnails/10.jpg)
Explanation Explanation
• Hydraulic jump – sudden slow-down and Hydraulic jump – sudden slow-down and rising of liquid because of turbulencerising of liquid because of turbulence
• The turbulence appears when the viscous The turbulence appears when the viscous boundary layer reaches the flow surfaceboundary layer reaches the flow surface
• Boundary layer detachment appears and a Boundary layer detachment appears and a vortex is formedvortex is formed
• The vortex spends flow energy and slows itThe vortex spends flow energy and slows it
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Explanation Explanation cont.cont.
• Due to turbulenceDue to turbulence energy is lost in the jumpenergy is lost in the jump
Flow before the jump is slower than behindFlow before the jump is slower than behind
Water level is higher due to continuityWater level is higher due to continuity
Boundary layer
jump
˝Nonviscous˝ layer
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Explanation Explanation cont.cont.
• Tasks for the theory:Tasks for the theory:
• Dependence of jump radius on parametersDependence of jump radius on parameters
• Dependence of flow velocity on radiusDependence of flow velocity on radius
• Jump structureJump structure
• Governing equations:Governing equations:
• Continuity and energy conservationContinuity and energy conservation
• Navier – Stokes equationNavier – Stokes equation
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Critical radiusCritical radius
• Critical radius – jump formation radiusCritical radius – jump formation radius
• Condition for obtaining critical radius:Condition for obtaining critical radius:
krhh – flow height
rk – critical radius
Δ – boundary layer thickness
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Critical radius Critical radius cont.cont.
• Continuity equation:Continuity equation:
• Energy conservation:Energy conservation:
h
vdzrQ0
2
Q – flow rate
v – flow velocity
r – distance from jump centre
z – vertical axis
0dr
dJ
dr
dJ otJ – kinetc energy pro unit
time
Jot – friction power
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Critical radius Critical radius cont.cont.
• Flow velocity is approximately linear in height Flow velocity is approximately linear in height because of hte small flow height:because of hte small flow height:
zv ξ – constant
z – vertical coordinate
2rh
Q
• The constant is obtained from continuity:The constant is obtained from continuity:
Q – flow rate
r – radius
h – flow height
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Critical radius Critical radius cont.cont.
• Friction force is Newtonian due to flow thinnessFriction force is Newtonian due to flow thinness
flow height equation:flow height equation:
rQr
h
dr
dh
4
η – viscosity
ρ – density
v0 – initial velocity
0
2
23
4
rv
Qr
Qrh
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Critical radius Critical radius cont.cont.
• Free fall of the liquid causes the existence of Free fall of the liquid causes the existence of initial velocity:initial velocity:
gdv 20 g – free fall acceleration
d – jet height
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Critical radius Critical radius cont.cont.
• Boundary layer thickness isBoundary layer thickness is
• Inserting:Inserting:
v
r
e.g. D. J. Acheson, ˝Boundary Layers˝, in Elementary Fluid Dynamics (Oxford U. P., New York, 1990)
6
1
3
1
3
23
1
2 24
3
dQ
grc
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Result comparationResult comparation
• Theoretical scaling confirmedTheoretical scaling confirmed
• Comparation of constant in flow rate Comparation of constant in flow rate dependence:dependence:
η 1.1·10-3 Pas
ρ 103 kg/m3
d 5 cm
constant 41.16 s/m3
Experimental value: Experimental value: 41.0 ± 1.0 s/m3
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flow rate [m3/s]
2e-5 3e-5 4e-5 5e-5 6e-5 7e-5 8e-5
radi
us [m
]
0,02
0,03
0,04
0,05
0,06
0,07
0,08
r(Q)experiment
Result comparation Result comparation cont.cont.
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viscosity [Pas]
0,0005 0,0006 0,0007 0,0008 0,0009 0,0010
radi
us [c
m]
2,8
3,0
3,2
3,4
3,6
3,8
4,0
4,2
r()experiment
Result comparation Result comparation cont.cont.
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jet height [cm]
0 2 4 6 8 10
radi
us [c
m]
4,20
4,25
4,30
4,35
4,40
4,45
r(d)experiment
Result comparation Result comparation cont.cont.
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Result comparation Result comparation cont.cont.
radius [m]
0,01 0,02 0,03 0,04 0,05 0,06
wat
er le
vel i
n P
itot t
ube
[m]
0,0
0,1
0,2
0,3
0,4
v(r)experiment
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Jump structureJump structure
• Main jump modes:Main jump modes:
• Laminar jumpLaminar jump
• Standing waves – wave jumpStanding waves – wave jump
• Oscillating/weakly turbulent jumpOscillating/weakly turbulent jump
• Turbulent jumpTurbulent jump
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Jump structure Jump structure cont.cont.
• Decription of liquid motion – Navier - Stokes Decription of liquid motion – Navier - Stokes equation:equation:
zvvvv
ˆ2 gt
Inertial termInertial termConvection Convection termterm
Viscosity Viscosity termterm
Gravitational Gravitational term (pressure)term (pressure)
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Jump structureJump structure cont.cont.
• laminar jump conditon:laminar jump conditon:
vvv
v
t
2
small velocitiessmall velocities
Viscous liquidsViscous liquids
Steady rotation in jump regionSteady rotation in jump region
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(slika1)
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Jump Structure Jump Structure cont.cont.
• Stable turbulent jump:Stable turbulent jump:
vvv 2
Large velocitiesLarge velocities
Weakly viscous liquidsWeakly viscous liquids
Time – stable modeTime – stable mode
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(slika3)
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Struktura skoka Struktura skoka cont.cont.
• The remaining time – dependent modes areThe remaining time – dependent modes are
• Difficult to obtainDifficult to obtain
• Unstable Unstable
• Mathematical cause: the inertial term in the Mathematical cause: the inertial term in the equation of motionequation of motion
• Observing is problematicObserving is problematic
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Conclusion Conclusion
• We can now answer the problem:We can now answer the problem:
• The jump is pfrmed because of boundary layer The jump is pfrmed because of boundary layer separation and vortex formationseparation and vortex formation
• Energy is lost in the jump, so the flow height is Energy is lost in the jump, so the flow height is larger after the jumplarger after the jump
• The jump in viscous liquids is laminar or The jump in viscous liquids is laminar or wavelike, without turbulencewavelike, without turbulence