Velocity inertial subrange model: Difference between revisions

This is the common definition for Velocity inertial subrange model, but other definitions maybe discussed within the wiki.

Inertial subrange for steady-flows

This theoretical model predicts the spectral shape of velocities in wavenumber space.

${\displaystyle {\mathrm{\Psi }}_{Vj}(\hat{k})=a_j{C}_k{\epsilon }^{2/3}{\hat{k}}^{-5/3}}$

Here ${\displaystyle \hat{k}}$ is expressed in rad/m and ${\displaystyle Vj}$ represents the velocities ${\displaystyle V}$ in direction ${\displaystyle j}$. ${\displaystyle C_k}$ is the empirical Kolmogorov universal constant of C = 1.5 (see Sreenivasan 1995 for a review on the universality of this constant). Amongst the three direction, the spectra deviates by the constant ${\displaystyle a_j}$:

• In the longitudinal direction, i.e., the direction of mean advection (j=1), ${\displaystyle a_1=\frac{18}{55}}$
• In the other directions ${\displaystyle a_2=a_3=\frac{4}{3}{a}_1}$

Inertial subrange for flows influenced by surface waves

Need to add equations and figures from Lumley & Terray

Notes