Difference between revisions of "Slippery questions about complex fluids flowing past solids"

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==Soft matters==
 
==Soft matters==
  
***I'm finishing reading the paper, which is fascinating.  This wiki will be done by Sunday.***
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Aimed at a general audience like any other Nature paper, this "progress article" was an enlightening read about slip of fluids flowing on solid surfaces.  This is a topic near and dear to wetting.
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===Lack of slip in everyday life===
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This article made me realize the simple reason it is impossible to blow a surface clean of dust particles.  The no-slip boundary condition of fluid flow past a solid surface--that is, flow velocity vanishes at the interface--means that small dust particles do not extend far enough beyond the adsorbing surface to be blown off.  Figure 1 shows this familiar situation.  Other familiar instances in which the no-slip condition makes life a little more difficult include washing soap off in the shower or sink and washing dishes.  In both cases, it is much more effective to scrub than to simply pour water. 
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Perhaps less trivial issues are fluid flow through small pipes (the effect in large pipes is negligible), accumulation of fatty detritus in arteries, and the pumping required in these cases.
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[[Image: G1.png|thumb|right|300px|'''Fig. 1''' ]]
 
[[Image: G1.png|thumb|right|300px|'''Fig. 1''' ]]

Revision as of 18:52, 3 May 2009

Slippery questions about complex fluids flowing past solids

Authors: Steve Granick, Yingxi Zhu and Hyungjung Lee

Soft matter keywords

Rough surfaces, slip control, hydrophobicity

By Alex Epstein


Abstract from the original paper

Viscous flow is familiar and useful, yet the underlying physics is surprisingly subtle and complex. Recent experiments and simulations show that the textbook assumption of ‘no slip at the boundary’ can fail greatly when walls are sufficiently smooth. The reasons for this seem to involve materials chemistry interactions that can be controlled — especially wettability and the presence of trace impurities, even of dissolved gases. To discover what boundary condition is appropriate for solving continuum equations requires investigation of microscopic particulars. Here, we draw attention to unresolved topics of investigation and to the potential to capitalize on ‘slip at the wall’ for purposes of materials engineering.

Soft matters

Aimed at a general audience like any other Nature paper, this "progress article" was an enlightening read about slip of fluids flowing on solid surfaces. This is a topic near and dear to wetting.

Lack of slip in everyday life

This article made me realize the simple reason it is impossible to blow a surface clean of dust particles. The no-slip boundary condition of fluid flow past a solid surface--that is, flow velocity vanishes at the interface--means that small dust particles do not extend far enough beyond the adsorbing surface to be blown off. Figure 1 shows this familiar situation. Other familiar instances in which the no-slip condition makes life a little more difficult include washing soap off in the shower or sink and washing dishes. In both cases, it is much more effective to scrub than to simply pour water.

Perhaps less trivial issues are fluid flow through small pipes (the effect in large pipes is negligible), accumulation of fatty detritus in arteries, and the pumping required in these cases.

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References

1.