Non-dimensionalizing the N-S equations

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SUMMARY

The discussion centers on the non-dimensionalization of the Navier-Stokes (N-S) equations, specifically comparing two versions of the Stokes approximation. Version 1 characterizes time using velocity (U) and length (L), while Version 2 employs kinematic viscosity for time scaling. The key conclusion is that the choice of characteristic variables significantly impacts the definition of dimensionless time, with Version 2 being more suitable for transient analysis. Understanding these differences is crucial for accurate modeling in fluid dynamics.

PREREQUISITES
  • Navier-Stokes equations
  • Non-dimensionalization techniques
  • Stokes approximation
  • Kinematic viscosity
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  • Study the implications of non-dimensionalization in fluid dynamics
  • Explore the differences between transient and steady-state solutions in fluid equations
  • Investigate the role of characteristic scales in mathematical modeling
  • Learn about the application of the Stokes approximation in various fluid flow scenarios
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Fluid dynamics researchers, engineers working with computational fluid dynamics (CFD), and students studying advanced fluid mechanics will benefit from this discussion.

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In non-dimensionalizing the N-S equations, are the choices of the characteristic variable important? I am currently reading the Stokes approximation to the N-S equation and find two versions of Stokes equations. They have used different scaling in their derivation and I find no clue in understanding the importance of scaling and am wondering if someone here can help me out.

Please kindly read the figure attached.

While the version 1 has characterise the time by U and L, version2 uses the kinemtic viscosity to scale the time. Are there any difference between these two approaches? I don't know what kind of difference will be produced and what effect would different choice of scales bring out. Could anyone explain clearly?

And are the two versions of Stokes equation the same? If not, what are the differences?

I find no clue in non-dimensionalization...
 

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hanson said:
In non-dimensionalizing the N-S equations, are the choices of the characteristic variable important? I am currently reading the Stokes approximation to the N-S equation and find two versions of Stokes equations. They have used different scaling in their derivation and I find no clue in understanding the importance of scaling and am wondering if someone here can help me out.

Please kindly read the figure attached.

While the version 1 has characterise the time by U and L, version2 uses the kinemtic viscosity to scale the time. Are there any difference between these two approaches? I don't know what kind of difference will be produced and what effect would different choice of scales bring out. Could anyone explain clearly?

And are the two versions of Stokes equation the same? If not, what are the differences?

I find no clue in non-dimensionalization...
The only real difference between these two approaches is in the definition of the dimensionless time. The second approach looks more appropriate for considering the transient case.
 

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