Simulation of ablation in Earth atmospheric entryThe process of ablation for Earth atmospheric entry is simulated using a computational approach that allows thermo-chemical nonequilibrium of the flow field and ablation gases. The heat pulse into the heat shield is modeled. The flowfield and graphite heat shield are coupled through surface mass and energy balances. The surface thermochemistry involves the oxidation of graphite and allows for catalytic recombination of diatomic oxygen. Steady-state simulations are performed on a one meter nose radius sphere at an altitude of 65/km and at freestream velocities of 8 km/s and 10 km/s. A transient simulation is performed at 65 km altitude and a freestream velocity of 10 km/s.
Document ID
19930062534
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Keenan, James A. (North Carolina State Univ. Raleigh, United States)
Candler, Graham V. (Minnesota Univ. Minneapolis, United States)