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Turbulent Boundary And Initial Conditions Calculator

Reynold Averaged Navier Stokes (RANS)

In some RANS models like κ-ω, κ-ε, and κ-ω SST, the iteration process can sometimes become sensitive to the input of boundary conditions or initial conditions for turbulent variables such as κ, ε, and ω. This is why differences in the initialization process can lead to distinct solutions.

Although in several commercial CFD software, these boundary conditions are usually computed automatically with inputs like velocity, characteristic length (hydraulic diameter), or turbulence intensity, it’s important to understand how these parameters are calculated.

For internal flows, these boundary conditions differ from external flows, thus requiring separate equations.









Generals

Internal Flow Results

Reynolds Number (Re)
Turbulence Intensity (I)
Beta (β)
Turbulent Kinetic Energy (κ)
Dissipation Rate (ε)
Specific Dissipation Rate (ω)

External Flow Results

Reynolds Number (Re)
Turbulence Intensity (I)
Beta (β)
Turbulent Kinetic Energy (κ)
Dissipation Rate (ε)
Specific Dissipation Rate (ω)
Turbulent Flow Boundary Conditions Calculator

Internal Flow Equation

For internal flow scenarios (e.g., flow in pipes, ducting, turbomachinery, etc.), the following equations are utilized:

External Flow Equation

Then, for external flows (e.g., aircraft aerodynamics, race car aerodynamics, wind around buildings, etc.), the κ equation takes the same form as in internal flows. However, for other variables, the relationships are as follows:

Meanwhile, the value of I can be calculated using the approximation:

With U being the reference velocity (usually the inlet velocity), C,miu is the coefficient in the turbulence model typically set to 0.09, L is the length scale usually set to 0.038 times the pipe diameter (for fully developed turbulent flow), and β has a value depending on the Reynolds number as follows:

ReIβ
less than 30000-1%0.1-0.2
3000-50001%11.6%-16.5%
5000-150001-5%16.5-26.7
15000–200005-20%26.7-34
more than 200005-20%100

It’s important to note that the calculations above serve as initial approximations to facilitate convergence, and eventually, they will be “washed out” as iterations progress. Therefore, extreme precision in these calculations isn’t necessary.

TensorConnect project 2024 by pttensor.com
Author: Caesar Wiratama