Post-Processing Variables for DPM Simulations

What options are available for post-processing the DPM?

In Contours panel or the like, if you select a DPM (Discrete Phase Model), select the following variables, it
can be used for post-processing.
DPM Mass Source [kg/s] – Total amount of mass exchange of the continuous phase with the dispersed phase
DPM Erosion [kg/m2-s] - Erosion rate that is calculated at any face of the wall boundary
DPM Accretion [kg/m2-s] - Speed of adhesion deposition in any of the wall boundary is calculated by the following equation:
DPM X,Y,Z Momentum Source [N] – amount of momentum exchange of the continuous phase with the dispersed phase in x, y, z directions
DPM Swirl Momentum Source [N] - Exchange amount of the swirling flow momentum to the continuous phase from the dispersed phase
DPM Sensible Enthalpy Source [W] - Exchange amount of the sensible enthalpy of the continuous phase from the dispersed phase
DPM Enthalpy Source [W] - Exchange amount of the enthalpy of the continuous phase from the dispersed phase (the sensible enthalpy plus the heat of formation)
DPM Absorption Coefficient [1/m] - Absorption coefficient in the dispersed phase calculations that include radiation
DPM Emission [W/m^3] - Radiation amount emitted by the dispersed phase particles per unit volume
DPM Scattering [1/m] - Scattering coefficient in the dispersed phase calculations that include radiation
DPM Burnout [kg/s] - Mass exchange amount to the continuous phase from the dispersed phase in the law of combustion (fifth law)
DPM Evaporation/Devolatilization [kg/s] - By devolatilization of evaporation or burning particles of the droplet particles, mass exchange amount to the chemical species that are released by evaporation or de-volatilized from the dispersed phase
DPM Concentration [kg/m^3] - The total concentration of the dispersed phase
DPM species-n Source [kg/s] - By devolatilization of evaporation or burning particles of the droplet particles, exchange amount of mass to the chemical species that are released by evaporation or de-volatilized from the dispersed phase (which is such a display DPM o2 Source)