7 Grants
2015
1.1 Fluid Dynamics: A Passive Bio-inspired Micro-adaptive Separation Control Mechanism Derived from Shark Skin
Lang, Amy
U.S. Department Of Defense (Dod) (ID: W911NF1510556), $520,334USD, 9/1/2015 -- 8/31/2018
2013
COLLABORATIVE RESEARCH: THE BENEFICIAL AERODYNAMIC EFFECT OF BUTTERFLY SCALES
Schreiber, WillardLang, Amy and Yoder, John
National Science Foundation (NSF), Directorate for Engineering, Division of Chemical, Bioengineering, Environmental, and Transport Systems (ID: 1335848), $281,743USD, 09/01/2013 -- 08/31/2016
2011
REU Site: Fluid Mechanics with Analysis using Computations and Experiments (FM-ACE)
Zeiler, Thomas and Lang, Amy
National Science Foundation (NSF), Directorate for Engineering, Division of Engineering Education and Centers (ID: 1062611), $355,159USD, 03/01/2011 -- 02/28/2014
2010
MRI-R2: Acquisition of a Volumetric 3-Component Velocimetry (V3V) System
Agrawal, AjayLang, AmyHubner, JamesOlcmen, Semih and Puzinauskas, Paulius
National Science Foundation (NSF), Directorate for Engineering, Division of Chemical, Bioengineering, Environmental, and Transport Systems (ID: 0958668), $501,680USD, 05/15/2010 -- 04/30/2012
2009
Collaborative Research: Experimental Studies to Reveal the Boundary Layer Control Mechanisms of Shark Skin
Lang, Amy
National Science Foundation (NSF), Directorate for Engineering, Division of Chemical, Bioengineering, Environmental, and Transport Systems (ID: 0932352), $210,001USD, 09/15/2009 -- 08/31/2013
2008
REU Site: Fluid Mechanics with Analysis using Computations and Experiments (FM-ACE)
Zeiler, Thomas and Lang, Amy
National Science Foundation (NSF), Directorate for Engineering, Division of Engineering Education and Centers (ID: 0754117), $320,000USD, 04/01/2008 -- 07/31/2011
2006
SGER: A Biomimetic Surface Roughness Geometry for Boundary Layer Control
Lang, Amy
National Science Foundation (NSF), Directorate for Engineering, Division of Chemical, Bioengineering, Environmental, and Transport Systems (ID: 0630489), $58,499USD, 07/01/2006 -- 12/31/2007