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Instructor: Lichuan Gui lichuan-gui@uiowa lcgui

Measurements in Fluid Mechanics 058:180:001 (ME:5180:0001) Time & Location: 2:30P - 3:20P MWF 218 MLH Office Hours: 4:00P – 5:00P MWF 223B-5 HL. Instructor: Lichuan Gui lichuan-gui@uiowa.edu http:// lcgui.net. Lecture 16. Flow visualization with marker techniques. Flow visualization.

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Instructor: Lichuan Gui lichuan-gui@uiowa lcgui

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  1. Measurements in Fluid Mechanics058:180:001 (ME:5180:0001)Time & Location: 2:30P - 3:20P MWF 218 MLHOffice Hours: 4:00P – 5:00P MWF 223B-5 HL Instructor: Lichuan Gui lichuan-gui@uiowa.edu http://lcgui.net

  2. Lecture 16. Flow visualization with marker techniques

  3. Flow visualization Marker techniques - Foreign material added to the fluid flow - Foreign energy (e.g. heat or electric discharge) added to the fluid flow Optical techniques - Based on refraction index changes - Compressible gas flow

  4. Flow visualization

  5. Flow visualization

  6. Flow visualization with marker techniques Tufts - short pieces of yarn, string, or other flexible material - fastened one end on surface or thin support in flow - used in both gaseous and liquid flows - indicate flow direction, separation region, flow instability - performance affected by density, stiffness, and length - tufts off surface: tuft screen - tufts mounted on mesh of thin wires Trailing vortices behind an inclined delta-wing as visualized by a tuft screen tuft wand - tufts mounted on a thin rod pin tufts - tufts attached to thin needles

  7. Flow visualization with marker techniques Surface marking methods - visualize flow direction and flow patterns near solid surfaces Oil-streak method - applicable to both gas and liquid flows - surface coated with a paint consisting of a pigment suspended in mineral oil - pigment coagulates and is deposited on surface in form of small lumps forming short streaklines - commonly used pigment: TiO2, china clay, lamp black, copier toner, and fluorescent chrysene - commonly used oil: kerosene, diesel oil, and light oil - special coatings used to visualize pressure and temperature distributions Oil-dot method - similar to oil-streak method, for surface with complex shapes Oil-film method - works with interferometry to measure wall shear stress

  8. Flow visualization with marker techniques Dyes - visualize liquid flow with injecting dye solution or producing colored region in fluid Dye injection - dye solutions injected into liquid stream through wall orifices or tubes in midstream - dyed stream should be injected at local speed of the flow - dye solution should match the density the fluid Example: Dye lines in water flow Vortex flow behind a yawed cylinder visualized with mixture of ink, milk and alcohol

  9. Flow visualization with marker techniques Dyes - visualize liquid flow with injecting dye solution or producing colored region in fluid Electrochemical methods - chemical reaction triggered by electric current Thymol blue (pH indicator) technique - orange-yellow in acidic environment (pH<0.8), color changed to blue when pH>9.6 - electric current in water releases hydrogen ions at cathode and leaves OH ions to increase pH vortex street behind a cylinder flow generated by a rotating cylinder Tellurium wire technique Electrolytic precipitation Others:

  10. Flow visualization with marker techniques UV laser Dyes - visualize liquid flow with injecting dye solution or producing colored region in fluid Photolytic methods - working fluid contains photochromic indicator - temporarily capable of absorbing photons in red-green range after illuminated by ultraviolet light - visible dark blue region appears when illuminated by white light Blue laser Blue laser - photochromic substances can be dissolved in alcohol, kerosene, and other solvents, but not in water - photochromic substances return to original state in a few seconds

  11. Flow visualization with marker techniques Hydrogen bubbles Electric current causes electrolysis in water: Thin metallic wire of 10-100 m used as cathode, much thick carbon rod as anode Hydrogen bubbles release to water flow from the thin cathode Consecutive rows of hydrogen bubbles indicating Velocity profiles a flat plat boundary layer

  12. Flow visualization with marker techniques Smoke, mists, and fogs Common methods for generating smoke Aerosol generation Burning vaporization and condensation Smoke lines around an airfoil modelin a wind-tunnel

  13. Flow visualization with marker techniques Solid markers, bubbles, and droplets Particle images obtained with stroboscopic illumination Tracer particles in water flow Oil drops in laminar pipe flow Propeller Turbulence Photographed in Stroboscopic Light as Water Passes the Torpedo

  14. Homework - Read textbook 10.1-10.2 on page 221 - 231 • Questions and Problems: 2 on page 245 - Due on 10/03

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