Experimental/Computational Studies of Combined Cycle Propulsion: Physics and Transient Phenomena in Inlets and Scramjet Combustors
Abstract
The major accomplishments of an AFOSR-MURI grant focused on transient processes in hypersonic combined-cycle propulsion are described. This effort had two main thrusts: investigation of (1) inlet-isolator physics and unstart control, and (2) supersonic mixing, combustion and flameholding. The supported work led to new findings related to the physics of shock-induced turbulent separation and inlet unstart, closed loop control of inlet unstart, development of kilohertz repetition rate plasma actuators, understanding of non-equilibrium plasma enhancement of combustion in subsonic and supersonic flameholders, development of the large-eddy simulation technique for compressible jets-in-crossflow, and development of new tunable diode-laser diagnostics for supersonic combustors. The scientific results obtained from this MURI program were disseminated widely to the scientific community via archival journal publications and technical conferences. The MURI effort led to 28 submitted or published papers in archival journals and 8 Ph.D. dissertations.
Document Details
- Document Type
- Technical Report
- Publication Date
- Oct 01, 2010
- Accession Number
- ADA589153
Entities
People
- David S. Dolling
- Godfrey Mungal
- Laxminarayan L. Raja
- M. Cappelli
- Maruthi Akella
- Noel T. Clemens
- Ronald Hanson
- Sanjiva K. Lele
Organizations
- University of Texas at Austin