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1
Fundamentals of Engineering Review
Fluid Mechanics (Prof. Hayley Shen) Spring 2010
Fluid Properties
Fluid Statics
Fluid Dynamics
Dimensional Analysis
Applications
Fluid Properties (Table)
Density
Specific weight, specific gravity
Viscosity (absolute or dynamics, kinematic)
Bulk modulus
Speed of sound
Surface tension
Vapor pressure
Fluid Statics
Pressure vs. elevation
Manometers
Force over submerged plane and curved surfaces
Buoyancy
Fluid Dynamics
Continuity equation
Linear momentum equation
Angular momentum equation
Energy equation
Bernoulli equation
EGL and HGL
Dimensional Analysis
Buckingham Pi Theorem
Common dimensionless parameters
Dynamic similitude
Applications
Pipe flow-
Reynolds number, Laminar and Turbulent flows, Entrance length, Darcy-Weisbach
equation, Moody chart, hydraulic radius, pump and turbine head.
Open channel flow-
Chezy-Manning equation
EGL (Energy Grade Line) and HGL (Hydraulic Grade Line)
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Fluid Properties (Table)
Density
Specific weight, specific gravity
Viscosity (absolute or dynamic, kinematic)
Bulk modulus
Speed of sound
Surface tension
Vapor pressure
SG fluid fluid
H O@4oC H O@4oC
2 2
u F
z A
E dp c Ev
v d/
p p 2 h 2 cos
i o R pi po R
Example
Find the terminal velocity of the object.
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Fluid Statics
Pressure vs. elevation
Manometers
Force over submerged plane and curved surfaces
Buoyancy
p p 0, x, y : horinzontal axes p , z: vertical axis
x y z
When used in manometers, the above says that you h when you go up from some
point and h when you go down. Inclined manometers are used to amplify the
menisci difference and increase accuracy.
pabs pgage patm Absolute pressures are often indicated as psia, and gage pressure
as psig.
For plane surfaces, use
F y sinA for the total pressure force, where
R c
c: centroid of the submerged surface; y : the distance between the centroid and the top
c
of the fluid along the orientation of the surface A; A is the
submerged area; is the angle of incline of surface A. This force
is not applied at the centroid. It is below the centroid. The point
of application is along the incline of surface at a distance yR
below the surface
y y Ixc
R c y A
c
For curved surface, separate the pressure force into horizontal and vertical part. The
horizontal part becomes plane surface and the vertical force becomes weight.
F F F on the vertical projection, F weight of fluid above W F
h R 2 v 1
F . If an object is submerged in several different fluids, must
buoyancy fluid submerged
calculate the buoyancy in each of them, then add together. When using buoyancy in
problems, FBD is often needed.
Example
Find the tension in the cable if the system is
neutrally buoyant.
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Fluid Dynamics
Continuity equation
Linear momentum equation
Angular momentum equation (Moment of momentum equation)
Energy equation
Bernoulli equation
EGL and HGL
ˆ
d V ndA
Continuity equation : 0
t CV CS
: ( ) ( ) or incompressible:
steady state Av Av m m Q Q
in out in out in out
Linear momentum equation : ˆ
Vd VVndAFs
t CV CS
steady state : where
M M F M mv
out in total i i
Moment-of -momentum equation: ˆ
r Vd rVV ndA0
t CV CS
steady state : (r vm) (r vm)
out in o(total)
Steady state energy equation with one inlet and one outlet :
~ p v2 ~ p v2
( ) (
u gz m u gz) m Q W
2 out 2 in net in shaft in
~ v2 ~ v2 ~ ~ p
(h gz) m(h gz) mQ W , h u enthalpy
out in net in shaft in
2 2
p v2
H H h h, H z, h 0 always.
out in L s 2g L
W mgh Qh
shaft s s
p v2
Bernoulli equation : 2g z constant along a streamline
Bernoulli equation is a conservation of energy equation. It is never 100% applicable.
p v2
EGL: line connecting 2g z (total head line)
HGL: line connecting p z (piezometric head line)
Example (Venturi meter)
Which is true?
1. the pressure at B is increased
2. the velocity at B is decreased
3. the potential energy at C is decreased
4. the flow energy at B is decreased
5. the kinetic energy at B is reduced
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