This software provides an improved methodology for predicting launcher base pressure and heat loads for RSRM (Reusable Solid Rocket Motor) launchers by accounting for complex anisotropic stress/ strains and variable turbulent Prandtl and Schmidt numbers. A "building block" approach to turbulence model development, and validation has been applied for improved missile/ launcher base region analysis.
Modifications to existing k – ε turbulence models and application of scalar variance models are incorporated into a RANS-based method for aeropropulsive flow modeling, directly related to base flow methodology. (RANS stands for Reynolds-averaged Navier-Stokes.) The models are applied in a RANS solver framework and can improve analysis of other complex flow fields.
The enhanced models provide a more accurate predictive capability for improving the design and analysis of RSRM launcher configuration. The k – ε model enhancements have been shown to improve the capability for predicting turbulence effects in base blow environments. The scalar variance models have been assessed over a wide range of flow configurations to improve prediction of turbulent scalar mixing.
This program was written by Neeraj Sinha, Kevin Brinckman, Haritha Ayyalasomayajula, and Sanford Dash of CRAFT Tech for Marshall Space Flight Center.