AA200A Applied Aerodynamics - Stanford Universitycantwell/AA200_Course_Material/... · 2014. 3....
Transcript of AA200A Applied Aerodynamics - Stanford Universitycantwell/AA200_Course_Material/... · 2014. 3....
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AA200A Applied Aerodynamics
Chapter 1 - Introduction to fluid flow
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1.1 Introduction Compressible flows play a crucial role in a vast variety of man-made and natural phenomena.
Propulsion and power systems High speed flight Star formation, evolution and death Geysers and geothermal vents Earth meteor and comet impacts Gas processing and pipeline transfer Sound formation and propagation
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1.2 Conservation of mass
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Divide through by the volume of the control volume.
1.2.1 Conservation of mass - Incompressible flow If the density is constant the continuity equation reduces to
Note that this equation applies to both steady and unsteady incompressible flow
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1.2.2 Index notation and the Einstein convention Make the following replacements
Using index notation the continuity equation is
Einstein recognized that such sums from vector calculus always involve a repeated index. For convenience he dropped the summation symbol.
Coordinate independent form
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1.3 Particle paths and streamlines in 2-D steady flow
The figure below shows the streamlines over a 2-D airfoil.
The flow is irrotational and incompressible
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Streamlines Streaklines
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A vector field that satisfies can always be represented as the gradient of a scalar potential
or
If the vector potential is substituted into the continuity equation the result is Laplaces equation.
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A weakly compressible example - flow over a wing flap.
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The figure below shows the trajectory in space of a fluid element moving under the action of a two-dimensional steady velocity field
The equations that determine the trajectory are:
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Formally, these equations are solved by integrating the velocity field in time.
Along a particle path
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Eliminate time between the functions F and G to produce a family of lines. These are the streamlines observed in the figures shown earlier.
The value of a particular streamline is determined by the initial conditions.
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This situation is depicted schematically below.
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The streamfunction can also be determined by solving the first-order ODE generated by eliminating dt from the particle path equations.
The total differential of the streamfunction is
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Replace the differentials dx and dy.
The stream function, can be determined as the solution of a linear, first order PDE.
This equation is the mathematical expression of the statement that streamlines are parallel to the velocity vector field.
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1.3.1 The integrating factor On a streamline
What is the relationship between these two equations ?
The first-order ODE governing the stream function can be written as
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To be a perfect differential the functions U and V have to satisfy the integrability condition
It was shown by the German mathematician Johann Pfaff in the early 1800’s that an integrating factor M(x,y) always exists. and the partial derivatives are
For general functions U and V this condition is not satisfied. The equation must be multiplied by an integrating factor in order to convert it to a perfect differential.
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1.3.2 Incompressible flow in 2 dimensions The flow of an incompressible fluid in 2-D is constrained by the continuity equation
This is exactly the integrability condition . Continuity is satisfied identically by the introduction of the stream function,
In this case -Vdx+Udy is guaranteed to be a perfect differential and one can write.
1.3.3 Incompressible, irrotational flow in 2 dimensions The Cauchy-Reimann conditions
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1.3.4 Compressible flow in 2 dimensions The continuity equation for the steady flow of a compressible fluid in two dimensions is
In this case the required integrating factor is the density and we can write.
The stream function in a compressible flow is proportional to the mass flux and the convergence and divergence of lines in the flow over the flap shown earlier is a reflection of variations of mass flux over different parts of the flow field.
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1.4 Particle paths in three dimensions
The figure above shows the trajectory in space traced out by a particle under the action of a general three-dimensional unsteady flow,
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The equations governing the motion of the particle are:
Formally, these equations are solved by integrating the velocity field.
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1.5 The substantial derivative The acceleration of a particle is
Insert the velocities. The result is called the substantial or material derivative and is usually denoted by
The time derivative of any flow variable evaluated on a fluid element is given by a similar formula. For example the rate of change of density following a fluid particle is
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1.5.1 Frames of reference
Transformation of position and velocity
Transformation of momentum
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Transformation of kinetic energy
Thermodynamic properties such as density, temperature and pressure do not depend on the frame of reference.
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1.6 Momentum transport due to convection
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Divide through by the volume
In the y and z directions x - component
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In index notation the momentum conservation equation is
In words,
Rearrange
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1.7 Momentum transport due to molecular motion 1.7.1 Pressure 1.7.2 Viscous friction - Plane Couette Flow
Force/Stress needed to maintain the motion of the upper plate
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1.7.5 Forces acting on a fluid element
1.7.3 A question of signs 1.7.4 Newtonian fluids
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Pressure-viscous-stress force components
Momentum balance in the x-direction
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x - component In the y and z directions
Divide by the volume
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In index notation the equation for conservation of momentum is
Coordinate independent form
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1.7 Conservation of energy
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1.8.1 Pressure and viscous work
Fully written out this relation is
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The previous equation can be rearranged to read in terms of energy fluxes.
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Energy balance.
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In index notation the equation for conservation of energy is
Coordinate independent form
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1.9 Summary - the equations of motion
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