Quantification of resolution

Mesh resolution

The grid resolution corresponds to uniform ${\displaystyle \Delta x^{+}=12.2,\ \Delta z^{+}=6.3}$ and ranges from ${\displaystyle \Delta y^{+}=0.16}$ near the wall (first solution point) to ${\displaystyle \Delta y^{+}=4.6}$ at the centre of the channel. The near-wall Kolmogorov length scale, ${\displaystyle \eta =\left({\bar {\rho }}\nu ^{3}/\epsilon \right)^{1/4}}$, in wall units is ${\displaystyle \eta ^{+}=1.54}$.

Solution verification

The solution accurately captures the near wall and log-law behaviour of averaged streamwise velocity profile as shown in Fig. 2.

Figure 2: Average streamwise velocity, ${\displaystyle Re_{\tau }=180}$, vs data from Moser et al. (1999)

The turbulent stress profiles agree well with the data from Moser et al.

Figure 3: Average streamwise velocity, ${\displaystyle Re_{\tau }=180}$, vs data from Moser et al. (1999)

The expected near wall behaviour of turbulent stresses are ${\displaystyle {\widetilde {u^{\prime \prime 2}}},{\widetilde {w^{\prime \prime 2}}}\sim y^{2},\ {\widetilde {v^{\prime \prime 2}}}\sim y^{4}}$ and ${\displaystyle {\widetilde {u^{\prime }v^{\prime }}}\sim y^{3}}$. These stresses near the wall from the current set of simulations are shown below.

• 

  ${\displaystyle {\widetilde {u^{\prime \prime }u^{\prime \prime }}}}$

• 

  ${\displaystyle {\widetilde {v^{\prime \prime }v^{\prime \prime }}}}$

• 

  ${\displaystyle {\widetilde {w^{\prime \prime }w^{\prime \prime }}}}$

• 

  ${\displaystyle {\widetilde {u^{\prime \prime }v^{\prime \prime }}}}$

One way to verify that the DNS are properly resolved is to examine the residuals of the Reynolds- stress budget equations. These residuals are among the statistical volume data to be provided as described in Statistical Data section.

Contributed by: Lionel Agostini — Imperial College London

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