Particle Distribution Analysis

As a follow on to the Probability Density/Distribution Function for the continuous phase domain (link here), I have created a close cousin of this routine which works on Discrete Particles to determine a Particle Distribution of the Discrete Phase.

This routine was written with the intended use for Spray Distribution in an In-Cylinder model, and built according to the typical variables and techniques used for this modeling scheme. It is common to determine and understand what the distribution of the particular spray is within the domain over time (mass distribution vs. radius).  This routine asks the user for a variable to base the Distribution on (in this case droplet radius). The routine breaks this value down into N number of “bins” (in this case 20). For each bin, the routine calculates the total mass of the spray in that bin, and reports back out a distribution. The routine then walks the transient domain to collect this information over time, and generate extracted information vs. time.

In order to base the total in each bin on Mass, the user must prescribe three items : a) the droplet radius, b) the droplet density, and c) the number of droplet per parcel. In this instance, the actual Discrete/Particle data in EnSight represents one parcel of spray (all with the same physical properties).  Therefore, the mass is represented as (number_drop_parcel)*(particle_density)*(4/3*pi*r^3).

The GUI input for this routine is similar to the previous PDF macro for the continuous phase, with the addition of variable prescription needed for the mass calculation.

Based on this range, it then divides the volume into N number of IsoVolumes (number of bins) based on this variable range. The routine then determines the mass of the spray which is contained within each of these variable constrained ranges. The result is placed into a query register and automatically plotted on the screen.

The Tool presents the user with the simple Window to select the variable, and number of bins (or bars) for the distribution function, along with the three items needed to calculate the mass of the spray (radius, density, parcel count)

 

After executing, you will then get a graph of distribution of the variable within the parent part(s) selected.

The values on the graph should always sum to the total mass of spray in the domain.

Note: As users increase the number of bars( or bins) for the graph, the shape of the curve will increase in resolution, although values on the Y-axis of the graph will adjust.

This Tool can be downloaded from the link below. Please unzip the file and place both the Python Script and Icon PNG file into your UserDefinedTools area and restart EnSight. You should see a “PDF Particle Graph” icon available in your UDT area, and you can double click to execute.

 

 Video Tutorial:

Please view this video tutorial for a detailed walk through of using this tool for Spray Analysis.

Screencast Tutorial

Download:
Please use the following link to download the UserDefinedTool:

Click here to download Particle Distribution Tool