Plume-surface interaction during lunar landing using a two-way coupled DSMC-DEM approach
Aasheesh Bajpai, Ashish Bhateja, Rakesh Kumar
Abstract
In this investigation, a novel two-way coupled gas-granular solver is developed, incorporating direct simulation Monte Carlo (DSMC) for gas particle collisions and discrete element method (DEM) for granular particle interactions. Gas-grain interaction model consists of momentum and energy exchange between the two phases. Using this framework, we have performed a comprehensive study of dust dispersion due to plume impingement on a lunar surface. We have predicted not only the velocity field of gas and grain phases, but also their temperature field, which can be meaningful information for spacecraft designers.
Topics & Concepts
PlumeAerospace engineeringAstrobiologySurface (topology)Environmental scienceMeteorologyAeronauticsGeologyPhysicsEngineeringGeometryMathematicsPlanetary Science and ExplorationAstro and Planetary ScienceSpacecraft and Cryogenic Technologies