SPDE/SPRE final summary report
Abstract
Mechanical Technology Incorporated (MTI) performed acceptance testing on the Space Power Research Engine (SPRE), which demonstrated satisfactory operation and sufficient reliability for delivery to NASA Lewis Research Center. The unit produced 13.5 kW PV power with an efficiency of 22 percent versus design goals of 28.8 kW PV power and efficiency of 28 percent. Maximum electric power was only 8 kWe due to lower alternator efficiency. One of the major shortcomings of the SPRE was linear alternator efficiency, which was only 70 percent compared to a design value of 90 percent. It was determined from static tests that the major cause for the efficiency shortfall was the location of the magnetic structure surrounding the linear alternator. Testing of an alternator configuration without a surrounding magnetic structure on a linear dynamometer confirmed earlier static test results. Linear alternator efficiency improved from 70 percent to over 90 percent. Testing of the MTI SPRE was also performed with hydrodynamic bearings and achieved full-stroke, stable operation. This testing indicated that hydrodynamic bearings may be useful in free piston Stirling engines. An important factor in achieving stable operation at design stroke was isolating a portion of the bearing length from the engine pressure variations. In addition, the heat pipe heater head design indicates that integration of a Stirling engine with a heat source can be performed via heat pipes. This design provides a baseline against which alternative designs can be measured.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- September 1993
- Bibcode:
- 1993STIN...9415482D
- Keywords:
-
- Engine Design;
- Free-Piston Engines;
- Heat Pipes;
- Linear Alternators;
- Power Converters;
- Spacecraft Power Supplies;
- Stirling Engines;
- Acceptability;
- Dynamometers;
- Hydrodynamics;
- Reliability;
- Static Tests;
- Spacecraft Propulsion and Power