The feasibility of combustion gas temperature measurements in the SSME fuel preburner using nonintrusive optical diagnostics was investigated. Temperature profiles are desired in the high pressure, hydrogen-rich preburner stream to evaluate designs to alleviate thermal stressing of the fuel pump turbine blades. Considering the preburner operating conditions and optical access restrictions, a spontaneous Raman backscattering system, implemented with optical fibers to couple to the combustion device, was selected as the most practical for gas temperature probing. A system is described which employs a remotely-located argon-ion laser to excite the molecular hydrogen Raman spectrum. The laser radiation is conveyed to the combustor through an optical fiber and focused through a window into the chamber by an optical head attached to the combustor. The gas temperature is determined from the distribution of rotational populations represented in the Raman spectrum.
Fiber optic Raman thermometer for Space Shuttle main engine preburner profiling
1985-04-01
Conference paper
No indication
English
Development of a Numerical Model for the Space Shuttle Main Engine Fuel Preburner
British Library Conference Proceedings | 1994
|Main Chamber and Preburner Injector Technology
NTIS | 1999
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