Creating a Bimodal Drop-Size Distribution in the NASA Glenn Icing Research Tunnel
Creating a Bimodal Drop-Size Distribution in the NASA Glenn Icing Research Tunnel
- New search for: King-Steen, Laura E.
- New search for: Ide, Robert F.
- New search for: King-Steen, Laura E.
- New search for: Ide, Robert F.
The Icing Research Tunnel at NASA Glenn has demonstrated that they can create a drop-size distribution that matches the FAA Part 25 Appendix O FZDZ, MVD40 m normalized cumulative volume within 10. This is done by simultaneously spraying the Standard and Mod1 nozzles at the same nozzle air pressure and different nozzle water pressures. It was also found through these tests that the distributions that are measured when the two nozzle sets are sprayed simultaneously closely matched what was found by combining the two individual distributions analytically. Additionally, distributions were compared between spraying all spraybars and also by spraying only every-other spraybar, and were found to match within 4. The cloud liquid water content uniformity for this condition has been found to be excellent: 10. It should be noted, however, that the liquid water content for this condition in the IRT is much higher than the requirement specified in Part 25 Appendix O.
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Creating a Bimodal Drop-Size Distribution in the NASA Glenn Icing Research Tunnel
AIAA Atmospheric & Space Environments Conference
2017-06-05
Conference paper
No indication
English