Aircraft icing
Label
Aircraft icing
Name
Aircraft icing
Source
nasat
Focus
Actions
Incoming Resources
- Subject of19
- An experimental study of airfoil icing characteristics, Robert J. Shaw, Ray G. Sotos, and Frank R. Solano ; prepared for Twenthieth Aerospace Sciences Conference sponsored by the American Institute of Aeronautics and Astronautics, Orlando, Florida, January 11-14, 1982
- A new narrowbeam, multi-frequency scanning radiometer and its application to in-flight icing detection, David J. Serke ... [and others]
- Review of the Aerodynamic Acceptance Test and application to anti-icing fluids testing in the NRC propulsion and icing wind tunnel, Andy P. Broeren, James T. Riley
- Ice shape characterization using self-organizing maps, Stephen T. McClain, Peter Tino, Richard E. Kreeger ; prepared for the First Atmospheric and Space Environments Conference sponsored by the American Institute of Aeronautics and Astronautics, San Antonio, Texas, June 22-25, 2009
- Piloted simulation to evaluate the utility of a real time envelope protection system for mitigating in-flight icing hazards, Richard J. Ranaudo ... [and others]
- Comparison of in-situ, model and ground based in-flight icing severity, Christopher J. Johnston ... [and others]
- Fundamental ice crystal accretion physics studies, Peter M. Struk ... [and others]
- Comparison of balloonsonde and remote sensing atmospheric measurements, David J. Brinker and Andrew L. Reehorst, Jack Power ; prepared for the 11th Conference on Aviation, Range, and Aerospace Meteorology sponsored by the American Meteorological Society, Hyannis, Massachusetts, October 4-8, 2004
- A wind tunnel study of icing effects on a business jet airfoil, Harold E. Addy, Jr. ... [and others]
- Development and implementation of a model-driven envelope protection system for in-flight ice contamination, David R. Gingras ... [and others]
- Evaluation of icing scaling on swept NACA 0012 airfoil models, Jen-Ching Tsao, Sam Lee
- Scaling of lift degradation due to anti-icing fluids based upon the aerodynamic acceptance test, Andy P. Broeren, James T. Riley
- Modeling commercial turbofan engine icing risk with ice crystal ingestion, Philip C.E. Jorgenson and Joseph P. Veres
- Total water content measurements with an isokinetic sampling probe, Andrew L. Reehorst, Dean R. Miller, and Colin S. Bidwell
- Super cooled large droplet analysis of several geometries using LEWICE3D version 3, Colin S. Bidwell
- Analysis of the meteorology associated with the 1997 NASA Glenn twin otter icing events, Ben C. Bernstein
- Results and conclusions from the NASA isokinetic total water content probe 2009 IRT test, Andrew Reehorst and David Brinker
- Aerodynamic classification of swept-wing ice accretion, Andy P. Broeren, Jeff M. Diebold and Michael B. Bragg
- Application of a high-fidelity icing analysis method to a model-scale rotor in forward flight, Robert Narducci and Stanley Orr, Richard E. Kreeger
Outgoing Resources
- Focus1