Orbital Spacecraft Cryogenic Helium Dewar Sloshing Dynamics Driven by Gravity Gradient Acceleration Associated with Slew Motion

概要

論文の詳細を見る
The mathematical formulations of orbiting spacecraft sloshing dynamics for a partially filled liquid of cryogenic superfluid helium II in a Dewar container driven by the gravity gradient acceleration associated with slew motion are studied. The Advanced X-ray Astrophysics Facility-Spectroscopy (AXAF-S) spacecraft is chosen as a practical example in this study. Explicit mathematical expressions for the orbital gravity gradient acceleration associated with the slew motion acting on spacecraft fluid systems are derived. The numerical computation of sloshing dynamics is based on the non-inertia frame spacecraft bound coordinate and the solution of time-dependent, three-dimensional formulations of partial differential equations subject to initial and boundary conditions. The explicit mathematical expressions of boundary conditions which treat the capillary force effect of sloshing dynamics on the liquid-vapor interface in a microgravity environment are also derived. This study discloses the capillary force effect of sloshing dynamics that governs liquid-vapor interface fluctuations driven by the gravity gradient acceleration associated with slew motion. This sloshing dynamics affects the stability of the orbital spacecraft fluid system in a microgravity environment.
一般社団法人日本機械学会の論文
1995-08-15