In connection with the conduction of the long-duration Voyager missions to the outer planets and the sophisticated propulsion systems required, it was necessary to carry out an investigation to avoid exhaust plume impingement problems. The rarefied gas dynamics literature indicates that, for most engineering surfaces, the assumption of diffuse reemission and complete thermal accommodation is warranted in the free molecular flow regime. This assumption was applied to an analysis of a spacecraft plume impingement problem in the near-free molecular flow regime and yielded results to within a few percent of flight data. The importance of a correct treatment of the surface temperature was also demonstrated. Specular reflection, on the other hand, was shown to yield results which may be unconservative by a factor of 2 or 3. It is pointed out that one of the most difficult portions of an exhaust plume impingement analysis is the simulation of the impinged hardware. The geometry involved must be described as accurately and completely as possible.
Rocket exhaust plume impingement on the Voyager spacecraft
Joint Propulsion Conference ; 1978 ; Las Vegas, NV, US
1978-07-01
Conference paper
No indication
English
Numerical Analysis of Spacecraft Rocket Plume Impingement Under Lunar Environment
Online Contents | 2011
|Exhaust-Plume Impingement Characteristics
NTRS | 1983
|