A study of the vent pipe for the gravity probe-B
Abstract
The Gravity Probe B experiment to test Einstein's relativity theory is a possible Space Shuttle project. Cooling of the gyroscopes and thrusting of the Probe into a zero-drag environment is accomplished by vaporizing liquid helium and venting the gas from the Probe through a nozzle system. In order to avoid malfunctioning of this cooling-thruster system, the pressure difference across the vent pipe-thruster system must be maintained to be less than the vapor pressure of liquid helium at the given temperature. This study investigated helium gas flow through the vent pipe for various configurations, mass flow rates, and pipe diameters. In addition, pertinent properties of both liquid and gaseous helium were investigated. It was observed that helical coiling of the pipe about the Dewar caused less frictional drag and less pressure change than did sharp pipe bending. Also, for various flow rates and nozzle throat area sizes, the system would malfunction for a given bath temperature.
- Publication:
-
In Alabama Univ. in Huntsville The 1981 NASA/ASEE Summer Fac. Fellowship Program 19 p (SEE N82-17043 07-99
- Pub Date:
- January 1982
- Bibcode:
- 1982asee.nasaQ....K
- Keywords:
-
- Helium;
- Pipe Flow;
- Venting;
- Cooling Systems;
- Gravimetry;
- Liquid Helium;
- Mass Flow;
- Physical Properties;
- Space Shuttle Payloads;
- Thrust;
- Launch Vehicles and Space Vehicles