introduction & hydrostatic forces mechanics_ppt.pdf · introduction & hydrostatic forces...
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INTRODUCTION & HYDROSTATIC FORCES
(FLUID MECHANICS)
UNIT – I
Dr.G. Venkata Ramana Professor& HOD Civil EngineeringIARE1
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Definition of Stress
Consider a small area δA on the surface of a body (Fig. 1.1). The force acting on this area is δF
This force can be resolved into two perpendicular components
The component of force acting normal to the area called normal force and is denoted by δFn
The component of force acting along the plane of area is called tangential force and is denoted
by δFt
Fig 1.1 Normal and Tangential Forces on a surface
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When they are expressed as force per unit area they are called as normal
stress and tangential stress respectively. The tangential stress is also
called shear stress.
• The normal stress
And shear stress
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Definition of Fluid
A fluid is a substance that deforms continuously in the face of tangential
or shear stress, irrespective of the magnitude of shear stress .This
continuous deformation under the application of shear stress constitutes a
flow.
In this connection fluid can also be defined as the state of matter that
cannot sustain any shear stress.
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Example : Consider Fig 1.2
Fig 1.2 Shear stress on a fluid body
If a shear stress τ is applied at any location in a fluid, the element 011' which is initially at rest, will move to 022', then to
033'. Further, it moves to 044' and continues to move in a similar fashion.
In other words, the tangential stress in a fluid body depends on velocity of deformation and vanishes as this velocity
approaches zero. A good example is Newton's parallel plate experiment where dependence of shear force on the
velocity of deformation was established.
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Solid
Fluid
More Compact Structure
Attractive Forces between the
molecules
are larger therefore more closely
packed
Solids can resist tangential stresses
in static condition
Whenever a solid is subjected to
shear stress
a. It undergoes a definite
deformationα or breaks
b. α is proportional to shear
stress upto some limiting
condition
Solid may regain partly or fully its
original shape when the tangential
stress is removed
Less Compact Structure
Attractive Forces between the
molecules
are smaller therefore more loosely
packed
Fluids cannot resist tangential
stresses in static condition.
Whenever a fluid is subjected to
shear stress
a. No fixed deformation
b. Continious deformation
takes place
until the shear stress is
applied
A fluid can never regain its original
shape, once it has been distorded by
the shear stress
Distinction Between Solid and Fluid
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Fig 1.3 Deformation of a Solid Body
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Property Symbol Definition Unit
Density ρ
The density p of a fluid is its mass per unit volume . If a fluid element
enclosing a point P has a volume Δ and mass Δm (Fig. 1.4), then density
(ρ)at point P is written as
However, in a medium where continuum model is valid one can write -
(1.3)
Fig 1.4 A fluid element enclosing point P
kg/m3
Specific
Weight γ
The specific weight is the weight of fluid per unit volume. The specific
weight is given
by γ= ρg (1.4)
Where g is the gravitational acceleration. Just as weight must be clearly
distinguished from mass, so must the specific weight be distinguished from
density.
N/m3
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Specific
Volume v
The specific volume of a fluid is the volume occupied by unit mass of fluid.
Thus
(1.5)
m3/kg
Specific
Gravity s
For liquids, it is the ratio of density of a liquid at actual conditions to the density of
pure water at 101 kN/m2 , and at 4°C.
The specific gravity of a gas is the ratio of its density to that of either hydrogen or
air at some specified temperature or pressure.
However, there is no general standard; so the conditions must be stated while
referring to the specific gravity of a gas.
-
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Viscosity ( μ ) :
Viscosity is a fluid property whose effect is understood when the fluid is in motion.
In a flow of fluid, when the fluid elements move with different velocities, each element will
feel some resistance due to fluid friction within the elements.
Therefore, shear stresses can be identified between the fluid elements with different
velocities.
The relationship between the shear stress and the velocity field was given by Sir Isaac
Newton.
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Consider a flow (Fig. 1.5) in which all fluid particles are moving in the same direction in such a way that the
fluid layers move parallel with different velocities.
Fig 1.5 Parallel flow of a fluid Fig 1.6 Two adjacent layers of a moving fluid.
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The upper layer, which is moving faster, tries to draw the lower slowly moving layer along with it by means of
a force F along the direction of flow on this layer. Similarly, the lower layer tries to retard the upper one,
according to Newton's third law, with an equal and opposite force F on it (Figure 1.6).
Such a fluid flow where x-direction velocities, for example, change with y-coordinate is called shear flow of
the fluid.
Thus, the dragging effect of one layer on the other is experienced by a tangential force F on the respective
layers. If F acts over an area of contact A, then the shear stress τ is defined as τ = F/A
Viscosity ( μ )
Newton postulated that τ is proportional to the quantity Δu/ Δy where Δy is the distance of separation of the two
layers and Δu is the difference in their velocities.
In the limiting case of , Δu / Δy equals du/dy, the velocity gradient at a point in a direction perpendicular to the
direction of the motion of the layer.
According to Newton τ and du/dy bears the relation
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• where, the constant of proportionality μ is known as the coefficient of viscosity or simply viscosity which is a
property of the fluid and depends on its state.
• Sign of τ depends upon the sign of du/dy.
• For the profile shown in Fig. 1.5, du/dy is positive everywhere and hence, τ is positive.
• Both the velocity and stress are considered positive in the positive direction of the coordinate parallel to
them.
Equation
Causes of Viscosity
The causes of viscosity in a fluid are possibly attributed to two factors:
(i) intermolecular force of cohesion
(ii) molecular momentum exchange
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Due to strong cohesive forces between the molecules, any layer in a moving fluid tries to drag the adjacent layer to move
with an equal speed and thus produces the effect of viscosity as discussed earlier. Since cohesion decreases with
temperature, the liquid viscosity does likewise
Fig 1.7 Movement of fluid molecules between two adjacent moving layers
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As the random molecular motion increases with a rise in temperature, the viscosity also increases accordingly.
Except for very special cases (e.g., at very high pressure) the viscosity of both liquids and gases ceases to be a
function of pressure.
For Newtonian fluids, the coefficient of viscosity depends strongly on temperature but varies very little with
pressure.
For liquids, molecular motion is less significant than the forces of cohesion, thus viscosity of liquids decrease
with increase in temperature.
For gases, molecular motion is more significant than the cohesive forces, thus viscosity of gases increase with
increase in temperature.
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Fig 1.8: Change of Viscosity of Water and Air under 1 atm
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No-slip Condition of Viscous Fluids
• It has been established through experimental observations that the relative velocity between the solid
surface and the adjacent fluid particles is zero whenever a viscous fluid flows over a solid surface. This is
known as no-slip condition.
This behavior of no-slip at the solid surface is not same as the wetting of surfaces by the fluids. For
example, mercury flowing in a stationary glass tube will not wet the surface, but will have zero velocity
at the wall of the tube.
The wetting property results from surface tension, whereas the no-slip condition is a consequence of fluid
viscosity.
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Ideal Fluid
Consider a hypothetical fluid having a zero viscosity ( μ = 0). Such a fluid is called an ideal fluid and the resulting
motion is called as ideal or inviscid flow. In an ideal flow, there is no existence of shear force because of vanishing
viscosity.
All the fluids in reality have viscosity (μ > 0) and hence they are termed as real fluid and their motion is
known as viscous flow.
Under certain situations of very high velocity flow of viscous fluids, an accurate analysis of flow field
away from a solid surface can be made from the ideal flow theory.
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Deformation of Fluids
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Newtonian Fluids
• Fluids in which shear stress is directly proportional to rate of deformation are called Newtonian fluids
• Most common fluids such as water, air, and gasoline are Newtonian under normal conditions
• If a fluid is Newtonian then:
• The constant of proportionality is called Absolute or Dynamic
viscosity denoted by
• The ratio of absolute viscosity to density is called Kinematic Viscosity and is denoted by
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Non Newtonian Fluids
• Fluids in which shear stress is not directly proportional to deformation rate are non- Newtonian
• Examples are toothpaste and Lucite5 paint.
• The paint is very “thick” when in the can, but becomes “thin” when sheared by brushing.
• Toothpaste behaves as a “fluid” when squeezed from the tube. However, it does not run out by itself when the cap is removed.
• There is a threshold or yield stress below which
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Apparent Viscosity
• The viscosity is normally constant but apparent viscosity depends upon shear rate and may be much higher at certain shear rates for non Newtonian fluids
• Mathematically :
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Types of Non Newtonian fluids • Fluids in which the apparent viscosity decreases with
increasing deformation rate (n<1) are called pseudoplastic (or shear thinning) fluids.
• Examples are polymer solutions, colloidal suspensions, and paper pulp in water
• If the apparent viscosity increases with increasing deformation rate (n>1) the fluid is termed dilatant (or shear thickening). Suspensions of starch and of sand are examples of dilatant fluids
• On the beach—if you walk slowly (and hence generate a low shear rate) on very wet sand, you sink into it, but if you jog on it (generating a high shear rate), it’s very firm.
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Types of Non Newtonian fluids
• A “fluid” that behaves as a solid until a minimum yield stress, τy, is exceeded and subsequently
exhibits a linear relation between stress and rate of deformation is referred to as an ideal or Bingham plastic. The corresponding shear stress model is:
• Clay suspensions, drilling muds, and toothpaste are examples of substances exhibiting this behavior
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Types of Non Newtonian fluids
• Thixotropic fluids: Non-Newtonian fluids in which apparent viscosity may be time-dependent i.e. show a decrease in η with time under a constant applied shear stress; many paints are thixotropic.
• Rheopectic: Non Newtonian fluids that show an increase in η with time hence called Rheopectic.
• Viscoelastic: After deformation some fluids partially return to their original shape when the applied stress is released; such fluids are called viscoelastic (many biological fluids work this way).
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Surface tension
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Surface tension
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Surface tension
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Viscous and Invicid flows
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Reynolds No
• A number given by
• It is used to predict whether viscous forces acting on a body are negligible as compared to pressure forces or not
• If Re is high, viscous forces are negligible
• If it is low then the viscous forces are not negligible
• If it is neither small nor large, no general conclusion can be drawn
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Reynolds No
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Various concepts
• Inviscid Flow: A friction less flow is called inviscid flow. It has no Viscosity effects
• Viscous Flow: A flow which involves force of friction is called viscous flow
• Stagnation points: where velocity is zero
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Boundary layer
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Boundary layer
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Boundary layer over a streamlined object
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Laminar and Turbulent Flows
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Laminar and Turbulent Flows
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Compressible and incompressible flows
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Compressible and incompressible flows
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Internal and External Flows
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Summary and Useful equations
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Summary and Useful equations
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UNIT-II Fluid Kinematics
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Overview
• Fluid Kinematics deals with the motion of fluids without considering the forces and moments which create the motion.
• Items discussed in this Chapter.
– Material derivative and its relationship to Lagrangian and
Eulerian descriptions of fluid flow.
– Flow visualization.
– Plotting flow data.
– Fundamental kinematic properties of fluid motion and deformation.
– Reynolds Transport Theorem
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Lagrangian Description
• Lagrangian description of fluid flow tracks the position and velocity of individual particles.
• Based upon Newton's laws of motion. • Difficult to use for practical flow analysis.
– Fluids are composed of billions of molecules. – Interaction between molecules hard to describe/model.
• However, useful for specialized applications – Sprays, particles, bubble dynamics, rarefied gases. – Coupled Eulerian-Lagrangian methods.
• Named after Italian mathematician Joseph Louis Lagrange (1736-1813).
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Eulerian Description
• Eulerian description of fluid flow: a flow domain or control volume is defined by which fluid flows in and out.
• We define field variables which are functions of space and time. – Pressure field, P=P(x,y,z,t) – Velocity field,
V V x , y , z , t
V u x , y , z , t i v x , y , z , t j w x , y , z , t k
– Acceleration field, a a
x , y , z , t
a a
a
a
x x , y , z , t i
y x , y , z , t j
z x , y , z , t k
– These (and other) field variables define the flow field.
• Well suited for formulation of initial boundary-value problems (PDE's).
• Named after Swiss mathematician Leonhard Euler (1707-1783).
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Example: Coupled Eulerian-Lagrangian Method
• Global Environmental MEMS Sensors (GEMS)
• Simulation of micron-scale airborne probes. The probe positions are tracked using a Lagrangian particle model embedded within a flow field computed using an Eulerian CFD code.
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Example: Coupled Eulerian-Lagrangian Method
Forensic analysis of Columbia accident: simulation of shuttle debris trajectory using Eulerian CFD for flow field and Lagrangian method for the debris.
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• To take the time derivative of, chain rule must be used.
a
V d t V
d x
p a r t ic le V d y
p a r t ic le V
d z p a r t ic le
p a r t ic le
t d t x d t y d t z d t
Acceleration Field
• Consider a fluid particle and Newton's second law,
F m a particle particle particle
• The acceleration of the particle is the time derivative of the
particle's velocity. a
p a r t ic le
dV
p a r t ic le
dt
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Acceleration Field
• Since d x
p a r tic le u ,
d y p a r tic le
v ,
d z p a r tic le
w
d t d t d t
V a
p a r t ic le
t
V V V u v w
x y z
• In vector form, the acceleration can be written as
a x , y , z , t
d V
d t
V
V
t V
• First term is called the local acceleration and is nonzero only for unsteady
flows.
• Second term is called the advective acceleration and accounts for the effect of the fluid particle moving to a new location in the flow, where the
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Material Derivative
• The total derivative operator d/dt is call the material derivative and is often given special notation, D/Dt.
D V d V V
V V
D t d t t
• Advective acceleration is nonlinear: source of many phenomenon and primary challenge in solving fluid flow problems.
• Provides ̀ `transformation'' between Lagrangian and Eulerian frames.
• Other names for the material derivative include: total, particle, Lagrangian, Eulerian, and substantial derivative.
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Flow Visualization
• Flow visualization is the visual examination of flow- field features.
• Important for both physical experiments and numerical (CFD) solutions.
• Numerous methods – Streamlines and streamtubes
– Pathlines
– Streaklines
– Timelines
– Refractive techniques
– Surface flow techniques
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Streamlines • A Streamline is a curve that is
everywhere tangent to the instantaneous local velocity vector.
• Consider an arc length d r
d x i d y j d zk
• d r must be parallel to the local
velocity vector
V u i v j w k
• Geometric arguments results in the equation for a streamline
d r d x d y d z
V u v w
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Streamlines
NASCAR surface pressure contours
and streamlines
Airplane surface pressure contours,
Airplane surface pressurere contours, Volume stream lines
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Pathlines
• A Pathline is the actual path traveled by an individual fluid particle over some time period. Same as the fluid particle's material position vector
x p a r tic le
t , y p a r tic le t , z
p a r tic le t
Particle location at time t:
t x x
s ta r t
t s ta r t
V d t
Particle Image Velocimetry (PIV) is a modern experimental technique to measure velocity field over a plane in the flow field.
•
•
•
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Streaklines
• A Streakline is the locus of fluid particles that have passed sequentially through a prescribed point in the flow.
• Easy to generate in experiments: dye in a water flow, or smoke in an airflow.
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Comparisons
• For steady flow, streamlines, pathlines, and streaklines are identical.
• For unsteady flow, they can be very different.
– Streamlines are an instantaneous picture of the flow field
– Pathlines and Streaklines are flow patterns that have a time history associated with them.
– Streakline: instantaneous snapshot of a time-integrated flow pattern.
– Pathline: time-exposed flow path of an individual particle.
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Timelines
• A Timeline is the locus of fluid particles that have passed sequentially through a prescribed point in the flow.
• Timelines can be generated using a hydrogen bubble wire.
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Plots of Data
• A Profile plot indicates how the value of a scalar property varies along some desired direction in the flow field.
• A Vector plot is an array of arrows indicating the magnitude and direction of a vector property at an instant in time.
• A Contour plot shows curves of constant values of a scalar property for magnitude of a vector property at an instant in time.
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Kinematic Description
• In fluid mechanics, an element may undergo four fundamental types of motion. a) Translation b) Rotation c) Linear strain d) Shear strain
• Because fluids are in constant motion, motion and deformation is best described in terms of rates a) velocity: rate of translation b) angular velocity: rate of rotation c) linear strain rate: rate of linear
strain d) shear strain rate: rate of shear
strain
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Rate of Translation and Rotation
• To be useful, these rates must be expressed in terms of velocity and derivatives of velocity
• The rate of translation vector is described as the velocity vector. In Cartesian coordinates:
V u i v j w k
• Rate of rotation at a point is defined as the average rotation rate of two initially perpendicular lines that intersect at that point. The rate of rotation vector in Cartesian coordinates:
1 w
v
1 u
w
1 v
u
i j k
2 y z 2 z x 2 x y
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Linear Strain Rate
• Linear Strain Rate is defined as the rate of increase in length per unit length.
• In Cartesian coordinates
u
xx x
, yy
v ,
w
y z z
z
• Volumetric strain rate in Cartesian coordinates
1 D V u v w
V D t xx yy z z
x y z
• Since the volume of a fluid element is constant for an incompressible flow, the volumetric strain rate must be zero.
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Shear Strain Rate
• Shear Strain Rate at a point is defin ed as half of the rate of decrease of the angle between two initially perpendicular lines that intersect at a point .
• Shear strain rate can be expressed in Cartesian coordinates as:
1 uxy
2 y
v
x
, zx
1 w
2 x
u ,
yz z
1 v
2 z
w
y
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Shear Strain Rate
• Purpose of our discussion of fluid element kinematics: – Better appreciation of the inherent complexity of fluid
dynamics
– Mathematical sophistication required to fully describe fluid motion
• Strain-rate tensor is important for numerous reasons. For example, – Develop relationships between fluid stress and strain rate.
– Feature extraction and flow visualization in CFD simulations.
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Shear Strain Rate Example: Visualization of trailing-edge turbulent eddies
for a hydrofoil with a beveled trailing edge
Feature extraction method is based upon eigen-analysis of the strain-rate tensor.
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Vorticity and Rotationality
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Comparison of Two Circular Flows Special case: consider two flows with circular streamlines
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Reynolds—Transport Theorem (RTT)
• A system is a quantity of matter of fixed identity. No mass can cross a system boundary.
• A control volume is a region in space chosen for study. Mass can cross a control surface.
• The fundamental conservation laws (conservation of mass, energy, and momentum) apply directly to systems.
• However, in most fluid mechanics problems, control volume analysis is preferred over system analysis (for the same reason that the Eulerian description is usually preferred over the Lagrangian description).
• Therefore, we need to transform the conservation laws from a system to a control volume. This is accomplished with the Reynolds transport theorem (RTT).
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Reynolds—Transport Theorem (RTT)
There is a direct analogy between the transformation from Lagrangian to Eulerian descriptions (for differential analysis using infinitesimally small fluid elements) and the transformation from systems to control volumes (for integral analysis using large, finite flow fields).
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Reynolds—Transport Theorem (RTT)
• Material derivative (differential analysis): D b b
• General RTT, nonfixed CV (integral analysis):
V D t t
b
dB sys
d t
C V t b d V
C S
b V n d A
Mass Momentum Energy Angular
momentum
B, Extensive properties m
mV E
H
b, Intensive properties 1
V e r
V
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Reynolds—Transport Theorem (RTT)
• Interpretation of the RTT:
– Time rate of change of the property B of the system is equal to (Term 1) + (Term 2)
– Term 1: the time rate of change of B of the control volume
– Term 2: the net flux of B out of the control volume by mass crossing the control surface
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RTT Special Cases
For moving and/or deforming control volumes,
dB sys
d t
C V t b d V
C S
b V r n
d A
• Where the absolute velocity V in the second term is replaced by the relative velocity
Vr = V -VCS
• Vr is the fluid velocity expressed relative to a coordinate system moving with the control volume.
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RTT Special Cases
For steady flow, the time derivative drops out,
dB sys
b 0
d V
b V r n
d A
b V
r n
d A
d t C V t C S C S
For control volumes with well-defined inlets and outlets
dB sys
d b d V b V A b V A
d t d t CV
a vg a vg r , a vg a vg a vg r , a vg
o u t in
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UNIT-III Fluid Dynamics
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Euler and Navier Stokes Equation:
Euler’s Equation: The Equation of Motion of an Ideal Fluid
Using the Newton's second law of motion the relationship between the velocity and pressure
field for a flow of an inviscid fluid can be derived. The resulting equation, in its differential
form, is known as Euler‟s Equation. The equation is first derived by the scientist Euler.
Derivation:
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The net forces acting on the fluid element along x, y and z directions can be written as
Since each component of the force can be expressed as the rate of change of momentum in the
respective directions, we h ave
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Expanding the material accelerations in Eqs in terms of their respective temporal and convective
components we get
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Momentum Equation in Integral Form:
Conservation of Momentum: Momentum Theorem In Newtonian mechanics, the conservation of momentum is defined by Newton‟s second law of motion. Newton’s Second Law of Motion
The rate of change of momentum of a body is proportional to the impressed action and takes place in the direction of the impressed action. If a force acts on the body ,linear momentum is implied.
If a torque (moment) acts on the body,angular momentum is implied.
Reynolds Transport Theorem
A study of fluid flow by the Eulerian approach requires a mathematical modeling for a control
volume either in differential or in integral form. Therefore the physical statements of the principle of conservation of mass, momentum and energy with reference to a control volume
become necessary. This is done by invoking a theorem known as the Reynolds transport theorem which relates the control volume concept with that of a control mass system in terms of a general
property of the
system.
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Statement of Reynolds Transport Theorem
The theorem states that "the time rate of increase of property N within a control mass system is equal to the time rate of increase of property N within the control volume plus the net rate of efflux of the property N across the control surface”.
Reynolds Transport Theorem
After deriving Reynolds Transport Theorem according to the above statement we get
In this equation
N - flow property which is transported η - intensive value of the flow property Application of the Reynolds Transport Theorem to Conservation of Mass and Momentum
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Angular Momentum Equation in Integral Form:
Angular Momentum The angular momentum or moment of momentum theorem is also derived from below Eq in consideration of the property N as the angular momentum and accordingly η as the angular momentum per unit mass. Thus,
where Control mass system is the angular momentum of the control mass system. . It has to be noted that the origin for the angular momentum is the origin of the position vector
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UNIT-IV Boundary Layer Theory
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= separated
bdy layer
• Re = Ux/; Re = Uc/; … • laminar and turbulent boundary layers
• displaced inviscid outer flow
• adverse pressure gradient and separa162tion
thicker
adverse pressure
gradient
leads to separation
difficult to use theory
EXTERNAL INCOMPRESSIBLE VISCOUS FLOWS
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Boundary Layer Provides Missing Link
Between Theory and Practice
Boundary layer, d, where viscous stresses
(i.e. velocity gradient) are important we’ll define
as where u(x,y) = 0 to 0.99 U¥ above boundary.
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In August of 1904 Ludwig Prandtl, a 29-year old professor presen
a remarkable paper at the 3rd International Mathematical Congres
Heidelberg. Although initially largely ignored, by the 1920s and 19
the powerful ideas of that paper helped create modern fluid dyna
out of ancient hydraulics and 19th-century hydrodynamics.
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ct outer outer “inviscid” flow if separates
• Prandtl assumed no slip condition
• Prandtl assumed thin boundary layer region where shear force
are important because of large velocity gradient
• Prandtl assumed inviscid external flow
• Prandtl assumed boundary so thin that within it p/y 0; v <<
u
and /x << /y
• Prandtl outer flow drives boundary layer boundary layer can
greatly effe
165
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BOUNDARY LAYER HISTORY
- 1904 Prandtl
Fluid Motion with Very Small Friction 2-D boundary layer equations
- 1908 Blasius
The Boundary Layers in Fluids with Little Friction Solution for laminar, 0-pressure gradient flow
- 1921 von Karman
Integral form of boundary layer equations
- 1924 Sir Horace Lamb
Hydrodynamics ~ one paragraph on bdy layers
- 1932 Sir Horace Lamb
Hydrodynamics ~ entire section on bdy layers
Theodore von Karman
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INTERNAL EXTERNAL
FULLY
DEVELOPED?
CAN BE NEVER
WAKE? NEVER USUALLY - PLATE IS
EXCEPTION
THEORY
LAMINAR
PIPES, DUCTS,.. FLAT PLATE & ZERO
PRESSURE GRADIENT
GROWING
BOUNDARY
LAYER?
NOT WHEN
FULLY
DEVELOPED
ALWAYS
ADVERSE
PRESSURE
GRADIENT
PIPE/DUCT=N0
DIFFUSER=YES
PLATE=MAYBE
BODIES=USUALLY
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ote – throughout figures the oundary layer
thickness*,d, is greatly exaggerated!
(disturbance layer*)
Airline industry had to
develop flat face rivets.
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Re = 20,000
Angle of attack = 6o
Symmetric Airfoil
16% thick
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Flat Plate (no pressure gradient)
~ what is velocity profile?
~ wall shear stress/drag?
~ displacement of free stream?
~ laminar vs turbulent flow?
Immersed Bodies
~ wall shear stress/drag?
~ lift?
~ minimize wake
0
17
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FLAT PLATE – ZERO PRESSURE GRADIENT
171
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Laminar Flow
d/x ~ 5.0/Re 1/2
THEORY x
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No simple theory
for Re < 1000;
(can’t assume
d is thin)
“At these Rex number
bdy layers so thin that displacement effect o outer inviscid layer is
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eL = 10,000 Visualization is by air bubbles see that boundary+ layer,
is thin and that outer free stream is displaced, d*, very little.
+ Disturbance Thickness, d(x) (pg 412); boundary layer thickness, d(x) (pg 415 174
FLAT PLATE – ZERO PRESSURE GRADIENT
outside d(x), U is constant so P is constant
u(x,y) is not constant, d(x) is thin so
assume P inside d(x) is impressed from the outside
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FLAT PLATE – ZERO PRESSURE GRADIENT
Rex = Ux/
Assume Rextransition ~ 500,000 x
L
ReL = Ux/
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SIMPLIFYING ASSUMPTIONS OFTEN MADE FOR
ENGINERING ANALYSIS OF BOUNDARY LAYER FLOWS
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Development of laminar boundary layer
(0.01% salt water, free stream velocity 0.6 cm/s, thickness
of the plate 0.5 mm, hydrogen bubble method).
* *
* *
Rex 1000
*
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FLAT PLATE – ZERO PRESSURE GRADIENT: d(x)
BOUNDARY OR DISTURBANCE LAYER
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d(x) d*
BOUNDARY OR DISTURBANCE LAYER
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180
Boundary Layer Thickness
d(x)
Definition:
u(x,d) = 0.99 of U=U=Ue
(within 1 % of U)
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d is at y location where u(x,y) = 0.99 U
Because the change in u in the boundary layer takes place asymptotically, there is some
indefiniteness in determining d exactly.
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NOTE: boundary layer is
much thicker in turbulent flow.
Blasius showed theoretically for laminar flow that
d/x = 5/(Rex)1/2 (Rex = Ux/)
d x1/2
Experimentally found*
for turbulent flow that
d x4/5
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NOTE: velocity gradient at wall
(w = du/dy) is significantly greater.
At same x: U/dL > U /dT
At same x: wL < wT
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streamline
184
From theory (Blasius 1908, student of
Prandtl):
d= 5x/(Rex1/2) = 5x/(U/[x])1/2 = 51/2x1/2/U1/2
dd/dx = 5 (/U)1/2 (½) x-1/2 = 2.5/(Rex)1/2
V/U = dy/dxstreamline = 0.84/(Rex1/2)
dy/dxstreamline dd/dx so d not
Note, boundary layer is not a streamlin
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Behavior of a fluid particle traveling along a streamline
through a boundary layer along a flat plate.
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LAMINAR TO TURBULENT TRANSITION
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NOTE: Turbulence is not initiated at
Retr all along the width of the plate
Emmons spot ~ Rex = 200,000 Spots grow approximately linearly downstream at downstream
speed that is a fraction of the free stream velocity.
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x=0
Turbulent boundary layer is thicker and grows fast
Transition not fixed but usually around Rex ~500,000
(2x105-3x106, MYO)For air at standard conditions and U = 30 m/s, xtr ~ 0.24 m
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194
Displacement Thickness
d*(x)
Definition:
d* = 0 (1 – u/U)dy
d* is displacement of outer
streamlines due to boundary layer
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By definition, no flow passes through streamline, so mass through 0 to h at x = 0
Displacement thickness d*
x = L
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Uh = 0h+d* udy = 0
h+d* (U + u - U)dy
Uh = 0h+d* Udy + 0
h+d* (u - U)dy
Uh = U(h + d*) + 0h+d*(u - U)dy
-Ud* = 0h+d*(u -U)dy
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displacement of outer
streamlines due to d(x)
d* 0 (1 – u/U)dy 0d(1 – u/U)dyfunction of x!
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Blasius developed an exact solution (but numerical integration
was necessary) for laminar flow with no pressure variation.
Blasius could theoretically predict boundary layer thickness d(x),
velocity profile u(x,y)/U vs y/d, and wall shear stress w(x).
Von Karman and Poulhausen derived
momentum integral equation
(approximation) which can be
used for both laminar (with and
without pressure gradient) and 162
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MOMENTUM INTEGRAL EQUATION
dP/dx is not a constant!
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Deriving:
MOMENTUM INTEGRAL EQ
so can calculate d(x), w.
245
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Surface Mass Flux Through Side ab
w u(x,y)
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Surface Mass Flux Through Side cd
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Surface Mass Flux Through Side bc
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Surface Mass Flux Through Side bc
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Apply x-component of momentum eq.
to differential control volume abcd
Assumption : (1) steady (3) no body forces
u
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mf represents x-component of momentum fl
Fsx will be composed of shear force on boun
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Surface Momentum Flux Through Side ab
X-momentum
Flux = u w
cvuVdA
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Surface Momentum Flux Through Side cd
X-momentum
Flux = uVdA cv
253
u
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Surface Momentum Flux Through Side bc
X- momentum
Flux = u
cvuVdA
U=Ue=U
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X-Momentum Flux Through Control Surface
b-c c-d
c-d a-b
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IN SUMMARY
X-Momentum Equation
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UNIT-V Closed Conduit Flow
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Closed Conduit Flow
• Energy equation
• EGL and HGL
• Head loss
– major losses
– minor losses
• Non circular conduits
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Conservation of Energy
• Kinetic, potential, and thermal energy
Cross section 2 isd_o_w_n_s_t_re_a_m from cross section 1!
hp =
ht =
hL =
head supplied by a pump
head given to a turbine
head loss between sections 1 and 2
1
p V 2
1
2g
1 z h
1 p 2
p
V 2
2
2g
2 z
2 h h
t L
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Energy Equation Assumptions
• Pressure is hydrostatic _ in both cross sections
– pressure changes are due to elevation only
• section is drawn perpendicular to the streamlines (otherwise the term is incorrect)
kinetic _ energy
• Constant
•
density at the cross section
Steady
1
p
V 2
flow
1
1 z
2g 1 h
p
2
2 p V
2
2
2g z
2 h h
t L
p h
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287
density
Bernoulli Equation Assumption
• Frictionless_ (viscosity can’t be a significant
parameter!)
• Along a streamline__
• Steady flow
• Constant
z V
2
p const
2g
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Pipe Flow: Review
• We have the control volume energy equation for pipe flow.
• We need to be able to predict the head loss term.
• How do we predict head loss? Dimensional analysis.
1
p V 2
1
1 z
2g 1 h
p
2
2 p V
2
2
2g z
2 h h
t L
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Pipe Flow Energy Losses
C p =
2ghf
V 2
2p C
p V
2
Dimensional Analysis f = æ
è
Dö æe ö C
p = function of , Re
L ø èD ø
1 p
2
V
1
1 z
p
1 h
p
2
2
V
2
2 z
2 g 2 h h
t l
2 g
Dp h
f = -
g
Horizontal pipe
2ghf
f = V
2
D
L
L V 2
hf
= f D 2g
Darcy-Weisbach equation
289
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290
Friction Factor: Major losses
• Laminar flow
– Hagen-Poiseuille
• Turbulent (Smooth, Transition, Rough)
– Colebrook Formula
– Moody diagram
– Swamee-Jain
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Laminar Flow Friction Factor
hf
= 128mLQ
pr gD 4 h
f =
32mLV
r gD 2
V D
2 h l
32 L Hagen-Poiseuille
L V 2
hf
= f D 2g
Darcy-Weisbach
32mLV L V 2
= f r gD
2 D 2g
Slope of -1 on log-log plot 64m 64
f = = r VD Re
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L V 2
hf
= f D 2 g
Turbulent Pipe Flow Head Loss
• Proportio_nal
• Proportio_nal
(almost)
to the length of the pipe
to the square of the velocity
• Increases with surface roughness
• Is a function of density and viscosity
• Is independ_en_tof pressure
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L V 2
hf
= f D 2g
Smooth, Transition, Rough Turbulent Flow
• Hydraulically smooth
pipe law (von Karman, 1930)
• Rough pipe law (von Karman, 1930)
• Transition function for both smooth and rough pipe laws (Colebrook)
1
f = 2 log
ç
æRe f ö
è 2.51 ø ÷
1
f = - 2 log
ç 3.7 +
æe D 2.51 ö
è Re f ø ÷
1
f
= 2 log æ3.7 D ö
è e ø
(used to draw the Moody diagram) 293
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Moody Diagram
0.1
0.05
0.04
0.03
0.02
0.015
0.01 0.008 0.006
0.004
0.01
1E+03 1E+04 1E+05 1E+06 1E+07 1E+08 Re
0.002
0.001 0.0008
0.0004
0.0002
0.0001
0.00005
smooth
294
f = æ
è C
p
Dö
l ø
D
fric
tion
fact
or
l
a
mi
na
r
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Pipe roughness
pipe material pipe roughness (mm)
glass, drawn brass, copper 0.0015
commercial steel or wrought iron 0.045
asphalted cast iron 0.12
galvanized iron 0.15
cast iron 0.26
concrete 0.18-0.6
rivet steel 0.9-9.0
corrugated metal
PVC
45 0.12
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hf RLQn
D m
Exponential Friction Formulas
• Commonly used in commercial and industrial settings
• Only applicable over ran_ge of datacollected
• Hazen-Williams exponential friction formula
4.727 USC units
R
C
n
10.675
SI units
Cn
h f
10.675L Q
1.852
D 4.8704
SI units C
C = Hazen-Williams coefficient 296
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297
Head loss: Hazen-Williams Coefficient
C Condition
150 PVC
140 Extremely smooth, straight pipes; asbestos cement
130 Very smooth pipes; concrete; new cast iron
120 Wood stave; new welded steel
110 Vitrified clay; new riveted steel
100 Cast iron after years of use
95 Riveted steel after years of use
60-80 Old pipes in bad condition
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Hazen-Williams vs
Darcy-Weisbach
• Both equations are empirical
• Darcy-Weisbach is rationally based, dimensionally correct, and preferred .
• Hazen-Williams can be considered valid only over the range of gathered data.
• Hazen-Williams can’t be extended to other fluids without further experimentation.
h 10.675L Q
1.852
f SI units
D 4.8704
C
hf
= f 8
p g
LQ2
2 D
5
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Head Loss: Minor Losses
• Head loss due to outlet, inlet, bends, elbows, valves, pipe size changes
• Losses due to expansions are greater than losses due to contractions
• Losses can be minimized by gradual transitions
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Minor Losses
• Most minor losses can not be obtained analytically, so they must be measured
• Minor losses are often expressed as a loss coefficient, K, times the velocity head.
V 2
h K
2 g
Cp = f (geometry, Re)
2p C
p V
2
2gh
l
C p
V 2
V 2
hl C
p
2g
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Head Loss due to Sudden Expansion: Conservation of Energy
1 2
1 p
2
z V
1 1
1 H
2 g
p
p
2
2
z V
2 2
2 H
2 g t h
l
1
2
1 2
p p
V 2
2 1 h
V 2
2 g l
z1 = z2
What is p1 - p2? h
l
1 2
1 2 p p V
2 V 2
2g
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x 1 2
V 1 2
Head Loss due to Sudden Expansion: Conservation of Momentum
V 2 A V
2 A
p A p A
Pressure is applied over all of section 1. Momentum is transferred over
1 1 2 2 1 2 2 2
2 V
2 A1
area corresponding to upstream pipe diameter. V1 is velocity upstream.
M 1x V
2 A
1 1
A1
A2
M1 M
2 W F
p 1 F
p 2 F
ss
M1x M
2 x F
p F
p
1 x 2 x
M 2 x V
2 A
2 2
Apply in direction of flow
Neglect surface shear
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Head Loss due to Sudden Expansion
Energy h
p p V 2 V 2
l
1 2
1 2
2 g
Mass A
1
V 2
A2
V1
Momentum 1 2
p p V
2
2 V 2
A1
1
2
g
A
V 2
2 V 2
V2
1
h V V V
2 2
l
1 1 2
g 2 g
V 2
h l
2 1 2 1
2 g
2V V V 2
h V
1 V
2
2
l
2 g
V 2
h l
1 1
1
A 2
2 g A
2
K 1 1
2
A
A2
303
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h V
K c c
Contraction
EGL
2
HGL 2
2g
vena contracta
losses are reduced with a gradual contraction
V1 V2
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e
e
e
Entrance Losses
• Losses can be reduced by accelerating the flow gradually and eliminating the vena contracta
K 1.0
K 0.5
K 0.04
V 2
he K
e
2 g
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200
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Head Loss in Valves
• Function of valve type and valve position
• The complex flow path through valves often results in high head loss
• What is the maximum value that Kv can have?
h K v v
V 2
2g
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Non-Circular Conduits: Hydraulic Radius Concept
• A is cross sectional area
• P is wetted perimeter
• Rh is the “Hydraulic Radius” (Area/Perimeter)
• Don’t confuse with radius!
D = 4Rh
For a pipe
We can use Moody diagram or Swamee Jain with D = 4R!
L V 2
hf
= f D 2g
hf
= f L V
2
4Rh 2g
p 2
Rh =
A
P =
D 4
p D
D =
4
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