Table of unit conversions

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$ \renewcommand{\vec}[1]{ {\bf #1} } \newcommand{\bnabla}{ \vec{\nabla} } \newcommand{\Rey}{Re} \def\vechat#1{ \hat{ \vec{#1} } } \def\mat#1{#1} $

To convert the value of a dimensionless variable in 'code' units to 'lab' units, multiply by $C$ from the following table ('code' units are based on $R$ and $U_{cl}$, 'lab' units are based on $D$ and $U_b$).


$variable~\mbox{(`lab' units)} = C \times variable ~\mbox{(`code' units)}$, e.g. for the variable $z$: $5 \,(D) = C \times 10 \,(R)$ with $C=\frac{1}{2}$.


$\begin{array}{ccccl} variable & \mbox{'code' units} & \mbox{'lab' units} & \mbox{conversion factor}~C & \mbox{comment}\\ \hline r,z & R & D & \frac{1}{2} & \mbox{length}\\ \vec{u} & U_{cl} & U_b & 2 & \mbox{speed} \\ t & R/U_{cl} & D/U_b & \frac{1}{4} & \mbox{time} \\ \sigma & U_{cl}/R & U_b/D & 4 & \mbox{growth rate} \\ E & \rho\,U_{cl}^2\, R^3 & \rho\,U_b^2\,D^3 & \frac{1}{2} & \mbox{kinetic energy} \\ D & \rho\,U_{cl}^3\, R^2 & \rho\,U_b^3\,D^2 & 2 & \mbox{dissipation rate} \\ E' & \rho\,U_{cl}^2\, R^2 & \rho\,U_b^2\,D^2 & 1 & \mbox{energy per unit length} \\ \tilde{E} & \rho\,U_{cl}^2 & \rho\,U_b^2 & 4 & \mbox{energy density} \end{array}$