Publikationsdatum:
2019-06-28
Beschreibung:
Small amplitude, linearized wave theory is used to derive a differential equation for the sloshing wave height under conditions in which a sloshing liquid drains out of a tank of circular but variable cross sectional area, allowing for changes of effective gravity with time. A few illustrative examples are given in which analytical results can be displayed and interpreted. Numerical integrations are presented for various examples of interest with respect to slosh behavior in the bottom dome of the Space Shuttle External Tank during thrust termination, particularly as this bears on scavenging of cryogens.
Schlagwort(e):
FLUID MECHANICS AND HEAT TRANSFER
Materialart:
AIAA PAPER 84-1424
Format:
text
Permalink