Fluid Accuracy Settings
Several advanced settings are available to fine-tune the accuracy of the fluid properties for the Arrow simulation. These options are enabled on the Fluid panel by selecting the Accuracy Settings check box. Once enabled the different Accuracy Setting options will be selectable using the available radio buttons.
Figure 1: Fluid panel in Analysis Setup with the Fluid Accuracy Settings enabled
State Properties
This option is only applicable to Chempak fluids.
The State Properties option influences the number of elements used in curve fits for calculating property data. You will usually want to start with standard accuracy, and use high accuracy for final runs, depending on the importance and run time for the model. The high accuracy option will increase run time by about a factor of two.
When performing interpolations for properties, a 4 point (bilinear) or 16 point (bicubic) interpolation scheme can be used. The 4 point scheme implemented in AFT Arrow is the Standard Accuracy option. The 16 point scheme is the high accuracy option. Use of the High accuracy option will roughly double the run times for models.
Sonic Velocity
This option is only applicable to Chempak fluids.
The standard accuracy sonic velocity option will usually be acceptable. The standard option uses Equation 87 for all sonic velocity calculations. The high accuracy option uses Equation 84, calculating the derivative using a numerical difference (also called perturbation derivative) along the isentropes. This is time consuming, and can cause models to run ten times as long. You should not use this option unless you have reason to believe Equation 87 has unacceptable accuracy as evidenced from the output values of sonic velocity.
Specific Heat Ratio
This option is applicable to all of the fluid libraries.
There is a choice of standard or high accuracy for the specific heat ratio. The standard accuracy uses Equation 80 for gamma (γ). The high accuracy uses Equation 81. The standard accuracy will usually be suitable, but for completeness you may want to use the high accuracy in your final runs and see if the results change.
The high accuracy option should not have a significant affect on run time (at most 10%). However, it can result in convergence problems.