A relative-intensity two-color phosphor thermography system
Abstract
The NASA LaRC has developed a relative-intensity two-color phosphor thermography system. This system has become a standard technique for acquiring aerothermodynamic data in LaRC Hypersonic Facilities Complex (HFC). The relative intensity theory and its application to the LaRC phosphor thermography system is discussed along with the investment casting technique which is critical to the utilization of the phosphor method for aerothermodynamic studies. Various approaches to obtaining quantitative heat transfer data using thermographic phosphors are addressed and comparisons between thin-film data and thermographic phosphor data on an orbiter-like configuration are presented. In general, data from these two techniques are in good agreement. A discussion is given on the application of phosphors to integration heat transfer data reduction techniques (the thin film method) and preliminary heat transfer data obtained on a calibration sphere using thin-film equations are presented. Finally, plans for a new phosphor system which uses target recognition software are discussed.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- September 1991
- Bibcode:
- 1991STIN...9131595M
- Keywords:
-
- Aerothermodynamics;
- Heat Transfer;
- Hypersonic Flow;
- Hypersonic Wind Tunnels;
- Phosphors;
- Thermography;
- Thin Films;
- Wind Tunnel Apparatus;
- Calibrating;
- Data Reduction;
- Investment Casting;
- Spheres;
- Target Recognition;
- Fluid Mechanics and Heat Transfer