Hardware for novel high-speed and 3D velocimetry
Abstract
This project aims to develop new classes of diagnostics (molecular- and/or particles-based) to instrument a series of in-situ experi,mental campaigns for a 6:1 prolate spheroid. The campaigns consist of a laminar to turbulent boundary layer transition at the US Na,val Academy followed by a high-Reynolds number specimen at the NAVSEA Large Cavitation Channel. The data are indented for validation,, as well as phenomelogical description of aspects of separation and transition. They will inspire the development of the next gene,ration of numerical codes. This sets a wide set of requirements, which forces the development of novel diagnostics. The novel diag,nostics will be based on the latest development in applied optics, computational imaging, optical fiber delivery of high power laser,s, and new development in molecular tagging velocimetry.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Jul 13, 2022
- Source ID
- N000142212316
Entities
People
- Philippe Bardet
Organizations
- George Washington University
- Office of Naval Research
- United States Navy