Development of fiber-based laser anemometer for SSME application
Abstract
A recent study by Rocketdyne for NASA identified laser anemometry, using a compact optical head, as a feasible diagnostic instrument for the Space Shuttle Main Engine (SSME) Model Verification experiments. Physical Research, Inc. (PRI) is presently under contract from NASA Lewis to develop and deliver such a laser anemometer system. For this application, it is desired to place the laser at a remote distance from the engine, and use single mode polarization preserving fiber optics for the transmission of the laser light to and from the measurement head. Other requirements are given. Analytical and experimental tools are being used to develop the technologies required for the laser anemometer. These include finite element analysis of the optical head and vibration tests for various optical and mechanical components. Design of the optical head and the fiber optic connectors are driven by the temperature and vibration requirements for the measurement environment. Results of the finite element analysis and the vibration tests of the components are included. Conceptual design of the fiber optic launcher and the optical probe has also been complete. Detailed design of the probe as well as the fabrication and assembly of the components is in progress.
- Publication:
-
Structural Integrity and Durability of Reusable Space Propulsion Systems
- Pub Date:
- April 1989
- Bibcode:
- 1989sidr.nasa..105M
- Keywords:
-
- Fiber Optics;
- Finite Element Method;
- Flow Measurement;
- Fluid Flow;
- Laser Anemometers;
- Space Shuttle Main Engine;
- Structural Vibration;
- Vibration Tests;
- Fabrication;
- High Temperature Environments;
- Light Transmission;
- Requirements;
- Instrumentation and Photography