Dynamic Similarity
12
Dynamic Similarity http:// www.typefreedi abetes.com/ Articles.asp? ID=150 u p g Dt u D 2 http://www.eosnap.com/?tag=strait-of-gibraltar
description
Dynamic Similarity. http://www.typefreediabetes.com/Articles.asp?ID=150. http://www.eosnap.com/?tag=strait-of-gibraltar. inertial vs viscous. Reynolds Number. Flow is laminar when Re < 1000. Flow is in transition to turbulence when 100 < Re < 10 5 to 10 6. - PowerPoint PPT Presentation
Transcript of Dynamic Similarity
Dynamic Similarity
http://www.typefreediabetes.com/Articles.asp?ID=150
upgDtuD
2
http://www.eosnap.com/?tag=strait-of-gibraltar
upgDtuD
2
2
2
2
2
2
21)zu
yu
xu
xp
zuw
yuv
xuu
tux
2
2
2
2
2
21)zu
yu
xu
xp
zuw
yuv
xuu
tux
Re2
2
2
2
ULLU
LUxu
xuuinertial vs viscous
TtHgpHzLxUu
Reynolds Number
Low Re
High Re
Flow is laminar when Re < 1000
Flow is in transition to turbulence when 100 < Re < 105 to 106
Flow is turbulent when Re > 106, unless the fluid is stratified
UL
Re
Consider an oceanic flow where U = 0.1 m/s; L = 10 km; kinematic viscosity = 10-6 m2/s
610
100001.0Re 910
Is friction negligible in the ocean?
2
2
2
2
2
21)zu
yu
xu
xp
zuw
yuv
xuu
tux
FrgHULgHLU
xp
xuu
2
21inertial vs pressure
TtHgpHzLxUu
Froude Number
1 gHUFr
1 gHUFr
http://www.yourlocalweb.co.uk/greater-manchester/city-of-manchester/higher-blackley/pictures/
2
2
2
2
2
21)zu
yu
xu
xp
zuw
yuv
xuu
tux
EuUpLULp
xuu
xp
2
21 pressure vs inertial
TtHgpHzLxUu
Euler Number
http://www.freefoto.com/browse/1222-02-0?ffid=1222-02-0
Great Fountain Geyser, Yellowstone National Park, USA
2UpEu
http://ya.astroleague.org/?p=1445
2UpEu
2
2
2
2
2
21)zu
yu
xu
xp
zuw
yuv
xuu
tux
StTULLUTU
xuu
tu
2local vs inertial
TtHgpHzLxUu
Strouhal Number
UAfSt
f = frequency of motion; A = amplitude of motion – for flying or swimming organisms (fin or wing)
Taylor at al. (2003, Nature 425, 707-711(16 )doi:10.1038/nature02000)
http://www.nature.com/nature/journal/v425/n6959/fig_tab/nature02000_F1.html#figure-title
“Left panels, root-flapping motion; right panels, heaving motion. Amplitude, twice wing chord; static angle of attack, 15°; flow speed, 1.5 ms-1; smoke wire visualizations made at end of downstroke.
a, For St < 0.10, flow separates at the sharp leading-edge, but no discrete vortex forms.
b, For 0.10 < St < 0.25, a leading-edge vortex forms but is shed before the downstroke ends.
c, For 0.25 < St < 0.45, the leading-edge vortex is shed as the downstroke ends.
d, For St > 0.45, trailing edge separation produces a characteristic mushroom-shaped wake.
At higher St, the wing collides with shed vorticity on the upstroke, giving an energetically inefficient mode.”
UAfSt
AfAfU 3.33.0
Dynamic Similarity
http://www.typefreediabetes.com/Articles.asp?ID=150
upgDtuD
2
http://www.eosnap.com/?tag=strait-of-gibraltar
UTLStUpEugHUFr
UL
2
Re
![User profile correlation-based similarity (UPCSim) algorithm ......collaborative ltering similarity [29], the Triangle Multiplying Jaccard (TMJ) similarity [30], and the similarity](https://static.fdocuments.in/doc/165x107/6147013af4263007b1358a2c/user-profile-correlation-based-similarity-upcsim-algorithm-collaborative.jpg)