Email: tayloreddydk1@gmail.com
This example shows the step-by-step calculation of turbulent kinetic energy (k), turbulent dissipation (ε), turbulent dissipation frequency (ω), and turbulent kinematic viscosity (νt) for a rectangular duct. The file name is “Calculation of turbulent kinetic energy, dissipation, omega frequency, and kinematic viscosity”.
The integral, Taylor, and Kolmogorov length, time, velocity, and associated Reare calculated, step-by-step, for a case with water flowing in a cylindrical pipe. The file name is “Example of Integral, Taylor, and Kolmogorov Eddy Scale Calculation Using the LIKE Algorithm”.
Step-by-step calculation of the eddy velocity, time, and length scales of a pipe with water flow. The file name is “Example 3.6 B--Eddy Scale Calculation Using the LIKE Algorithm”.
Three basic examples are solved for the calculation of y+. Calculation of the laminar sublayer, node spacing distance, and the value of y+ at a given y. The file name is “y+ Calculation, Example 6A-C”.
Step-by-step calculation of y+ for high-velocity water flow over a flat plate. Several solution approaches are presented. The file name is “y+ Calculation, Example 6D”.
The calculation of the eddy velocity, time, and length scales for a small modular reactor are presented using the LIKE algorithm Matlab script. Helium, water, and lead bismuth eutectic (LBE) are considered. The file name is “y+ Calculation, Example 6D”.
Email: tayloreddydk1@gmail.com