Stokes’ power formula

We derive the conservation law of mechanical energy, referred to as Stokes power formula, starting with the following equation of motion in an Eulerian framework ... 

Stokes Power Formula in a Continuum Lagrangian Description ... 

Stokes power formula (3.27), which was derived from the equation of motion, is also satisfled as... 

Applying the divergence theorem to the third term of the r.h.s. and using Stokes power formula (3.18), we obtain the following local Eulerian form of the dissipative energy equation ... 

For each component we apply Stokes power formula (3.18) ... 

If Stokes power formula is satisfied (cf. Sect. 3.2.4), the above formulae can then be modified as follows ... 

Analysis of the hydrodynamic interactions of many particles in a laminar flow, carried out by Saito [56] showed that in view of the complexity of the physical picture of interactions in many body systems introduction of Stokes approximations in a theoretical consideration of the flow of dispersions can lead to incorrect results. For the laminar flow Saito proposed a formula containing a power series ... 

In the case of mass exchange between a bubble and a translational Stokes flow of a quasi-Newtonian power-law fluid (n is close to unity), one can use the following simple approximate formula for calculating the mean Sherwood number at high Peclet numbers ... 

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