© Fox, Pritchard, & McDonald Introduction to Fluid Mechanics Chapter 9 External Incompressible...
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Transcript of © Fox, Pritchard, & McDonald Introduction to Fluid Mechanics Chapter 9 External Incompressible...
![Page 1: © Fox, Pritchard, & McDonald Introduction to Fluid Mechanics Chapter 9 External Incompressible Viscous Flow.](https://reader036.fdocuments.net/reader036/viewer/2022081420/56649f2f5503460f94c49259/html5/thumbnails/1.jpg)
© Fox, Pritchard, & McDonald
Introduction to Fluid Mechanics
Chapter 9
External Incompressible Viscous Flow
![Page 2: © Fox, Pritchard, & McDonald Introduction to Fluid Mechanics Chapter 9 External Incompressible Viscous Flow.](https://reader036.fdocuments.net/reader036/viewer/2022081420/56649f2f5503460f94c49259/html5/thumbnails/2.jpg)
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Main TopicsThe Boundary-Layer ConceptBoundary-Layer ThicknessesLaminar Flat-Plate Boundary Layer: Exact
SolutionMomentum Integral EquationUse of the Momentum Equation for Flow with
Zero Pressure GradientPressure Gradients in Boundary-Layer FlowDragLift
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The Boundary-Layer Concept
![Page 4: © Fox, Pritchard, & McDonald Introduction to Fluid Mechanics Chapter 9 External Incompressible Viscous Flow.](https://reader036.fdocuments.net/reader036/viewer/2022081420/56649f2f5503460f94c49259/html5/thumbnails/4.jpg)
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The Boundary-Layer Concept
![Page 5: © Fox, Pritchard, & McDonald Introduction to Fluid Mechanics Chapter 9 External Incompressible Viscous Flow.](https://reader036.fdocuments.net/reader036/viewer/2022081420/56649f2f5503460f94c49259/html5/thumbnails/5.jpg)
© Fox, Pritchard, & McDonald
Boundary Layer Thicknesses
![Page 6: © Fox, Pritchard, & McDonald Introduction to Fluid Mechanics Chapter 9 External Incompressible Viscous Flow.](https://reader036.fdocuments.net/reader036/viewer/2022081420/56649f2f5503460f94c49259/html5/thumbnails/6.jpg)
© Fox, Pritchard, & McDonald
Boundary Layer Thicknesses
Disturbance Thickness,
Displacement Thickness, *
Momentum Thickness,
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© Fox, Pritchard, & McDonald
Laminar Flat-PlateBoundary Layer: Exact Solution
Governing Equations
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© Fox, Pritchard, & McDonald
Laminar Flat-PlateBoundary Layer: Exact Solution
Boundary Conditions
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Laminar Flat-PlateBoundary Layer: Exact Solution
Equations are Coupled, Nonlinear, Partial Differential EquationsBlasius Solution:
• Transform to single, higher-order, nonlinear, ordinary differential equation
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© Fox, Pritchard, & McDonald
Laminar Flat-PlateBoundary Layer: Exact Solution
Results of Numerical Analysis
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Momentum Integral Equation
Provides Approximate Alternative to Exact (Blasius) Solution
![Page 12: © Fox, Pritchard, & McDonald Introduction to Fluid Mechanics Chapter 9 External Incompressible Viscous Flow.](https://reader036.fdocuments.net/reader036/viewer/2022081420/56649f2f5503460f94c49259/html5/thumbnails/12.jpg)
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Momentum Integral Equation
Equation is used to estimate the boundary-layer thickness as a function of x:1. Obtain a first approximation to the freestream velocity distribution, U(x). The pressure in
the boundary layer is related to the freestream velocity, U(x), using the Bernoulli equation2. Assume a reasonable velocity-profile shape inside the boundary layer
3. Derive an expression for w using the results obtained from item 2
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Use of the Momentum Equation for Flow with Zero Pressure Gradient
Simplify Momentum Integral Equation(Item 1)
The Momentum Integral Equation becomes
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Use of the Momentum Equation for Flow with Zero Pressure Gradient
Laminar Flow• Example: Assume a Polynomial Velocity Profile
(Item 2)
• The wall shear stress w is then (Item 3)
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Use of the Momentum Equation for Flow with Zero Pressure Gradient
Laminar Flow Results(Polynomial Velocity Profile)
Compare to Exact (Blasius) results!
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Use of the Momentum Equation for Flow with Zero Pressure Gradient
Turbulent Flow• Example: 1/7-Power Law Profile (Item 2)
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© Fox, Pritchard, & McDonald
Use of the Momentum Equation for Flow with Zero Pressure Gradient
Turbulent Flow Results(1/7-Power Law Profile)
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Pressure Gradients in Boundary-Layer Flow
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Drag
Drag Coefficient
with
or
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DragPure Friction Drag: Flat Plate Parallel to the FlowPure Pressure Drag: Flat Plate Perpendicular to the FlowFriction and Pressure Drag: Flow over a Sphere and CylinderStreamlining
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DragFlow over a Flat Plate Parallel to the Flow:
Friction Drag
Boundary Layer can be 100% laminar, partly laminar and partly turbulent, or essentially 100% turbulent; hence several different drag coefficients are available
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DragFlow over a Flat Plate Parallel to the Flow:
Friction Drag (Continued)
Laminar BL:
Turbulent BL:
… plus others for transitional flow
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DragFlow over a Flat Plate Perpendicular to
the Flow: Pressure Drag
Drag coefficients are usually obtained empirically
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DragFlow over a Flat Plate Perpendicular to
the Flow: Pressure Drag (Continued)
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DragFlow over a Sphere and Cylinder:
Friction and Pressure Drag
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DragFlow over a Sphere and Cylinder:
Friction and Pressure Drag (Continued)
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StreamliningUsed to Reduce Wake and hence
Pressure Drag
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Lift
Mostly applies to Airfoils
Note: Based on planform area Ap
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LiftExamples: NACA 23015; NACA 662-215
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LiftInduced Drag
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LiftInduced Drag (Continued)
Reduction in Effective Angle of Attack:
Finite Wing Drag Coefficient:
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LiftInduced Drag (Continued)