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Basics of Rotating Boundary-Layer Flow NCAR is funded by the National Science Foundation Richard Rotunno NCAR, Boulder CO.

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Presentation on theme: "Basics of Rotating Boundary-Layer Flow NCAR is funded by the National Science Foundation Richard Rotunno NCAR, Boulder CO."— Presentation transcript:

1 Basics of Rotating Boundary-Layer Flow NCAR is funded by the National Science Foundation Richard Rotunno NCAR, Boulder CO

2 Outline 1.Rotating Flow / No Boundary 2.Rotating Flow / Frictional Boundary Layer 3.Boundary Layer of a Solid-Body-Rotation Vortex 4.Boundary Layer of a Potential Vortex 5.Boundary Layer of a Rankine-Type Vortex 6. Summary

3 Cylindrical Polar Coordinates 1.Rotating Flow / No Boundary

4 Simple Vortex 1.Rotating Flow / No Boundary

5 http://web.mit.edu/hml/ncfmf.html 2. Rotating Flow/Frictional Boundary layer

6 Dye Injected at Water Surface (earlier) Drain Secondary Flow 2. Rotating Flow/Frictional Boundary layer Bathtub Vortex

7 Dye Injected at Water Surface (later) Drain Bathtub Vortex Secondary Flow 2. Rotating Flow/Frictional Boundary layer

8 Dye Injected near Bottom (earlier) Drain Secondary Flow Bathtub Vortex 2. Rotating Flow/Frictional Boundary layer

9 Dye Injected near Bottom (later) Drain Secondary Flow Bathtub Vortex 2. Rotating Flow/Frictional Boundary layer

10

11 For any, (radial inflow) near frictional boundary 2. Rotating Flow/Frictional Boundary layer

12 Behavior of near frictional boundary depends on Similarity solutions exist Solid-body rotation Potential vortex Rott and Lewellen (1966 Prog Aero Sci) 2. Rotating Flow/Frictional Boundary layer

13 3. Flow in Solid-Body Rotation Above a Stationary Disk* * Bödewadt (1940) (Schlichting 1968 Boundary Layer Theory)

14 3. Flow in Solid-Body Rotation Above a Stationary Disk Solution exhibits overshoot and pumping

15 3. Flow in Solid-Body Rotation Above a Stationary Disk Bödewadt Ekman hodograph Ekman is linearized version of Bödewadt

16 3. Flow in Solid-Body Rotation Above a Stationary Disk 010110 0 8 Inertial layer: Friction layer: Rotunno and Bryan (Submitted to JAS)

17 tangential radial 3. Flow in Solid-Body Rotation Above a Stationary Disk Laboratory Experiment Secondary Flow

18 3. Flow in Solid-Body Rotation Above a Stationary Disk Hurricane Inner-Core Flow

19 Zhang, Rogers, Nolan & Marks (2011, Monthly Weather Review) radialtangential 3. Flow in Solid-Body Rotation Above a Stationary Disk Composite Dropsonde Analysis of Hurricane Inner-Core Flow

20 4. Potential Vortex Above a Stationary Disk: Experiment Phillips and Khoo (1987, Proc. Roy. Soc. London)

21 4. Potential Vortex Above a Stationary Disk: Experiment Phillips and Khoo (1987, Proc. Roy. Soc. London)

22 4. Potential Vortex Above a Stationary Disk: Theory radialtangential Burggraf, Stewartson and Belcher (1971, Phys. Fluids) Radial inflow ( ), but no overshoot( ) decreasing radius decreasing radius

23 radial tangential 4. Potential Vortex Above a Stationary Disk: Theory & Experiment Phillips and Khoo (1987, Proc. Roy. Soc. London)

24 radial tangential 4. Potential Vortex Above a Stationary Disk: Theory & Experiment Phillips and Khoo (1987, Proc. Roy. Soc. London) Inertial layer: Friction layer: Wilson and Rotunno (1986, Phys. Fluids)

25 4. Potential Vortex Above a Stationary Disk: Experiment Phillips (1985, Proc. Roy. Soc. London) End-Wall Vortex Vortex Breakdown

26 April 22, 2010 Texas Panhandle (H. Bluestein) 4. Potential Vortex Above a Stationary Disk: Tornado?

27 Kuo (1971, JAS) 5. Boundary layer of a Rankine-Type Vortex

28 Summary Rotating Flow / Frictional Boundary Layer Radial Inflow in BL, if Convergent, Transport from BL to Interior Boundary Layer of Solid-Body-Rotation Vortex Application: Hurricanes Boundary Layer of Potential Vortex Application: Certain Types of Tornadoes Boundary Layer of Rankine-Type Vortex Application: Hurricanes& Certain Types of Tornadoes

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