Manipulation and Control of Jets in CrossflowAnn R. Karagozian, Luca Cortelezzi, Alfredo Soldati Fundamental Non-Reactive Jets in Crossflow and Other Jet Systems; Background on Modeling, Dynamical Systems, and Control; Reactive Jets in Crossflow and Multiphase Jets; Controlled Jets in Crossflow and Control via Jet Systems; |
Contents
Background on and Applications of Jets in Crossflow | 3 |
Jets in Crossflow Scalar Mixing via PLIF | 15 |
Jets Injected Normally into Compressible Crossflow | 25 |
Jets in Crossflow Simultaneous PIVPLIF measurements | 39 |
Numerical Appraisal of JettoCrossflow Coupling in a Transverse Jet | 49 |
Nozzle Geometry Effects in the Near Field of a Round Jet | 67 |
A Few Remarks on the CrossFlow Structure Influence | 77 |
Background on Modeling Dynamical Systems and Control | 87 |
Jets in Crossflow Effects of Heat Release | 173 |
Jets in Crossflow NOx Control Using the TwoStage Lagrangian Model | 183 |
Modeling Turbulent Particle Dispersion in Transverse Jets | 193 |
ParticleVortex Interactions in Free and Impinging Air Jets | 211 |
Characteristics of Droplet Pinchoff in LiquidLiquid Jet Systems | 223 |
Controlled Jets in Crossflow and Control via Jet Systems | 235 |
A Framework to Design Controllers for Engineering Applications of Transverse Jets | 237 |
Active Control of Jets in Crossflow | 247 |
Threedimensional Vortex Modeling of Unforced Transverse Jets | 89 |
State of the Art and Open Problems | 107 |
Reduced Order Controllers for Fluid Mechanics Applications | 119 |
Control of Micromixers Jets and Turbine Cooling using Evolution Strategies | 139 |
MultiObjective Evolutionary Algorithm for Optimization of Combustion Processes | 157 |
Reactive Jets in Crossflow and Multiphase Jets | 171 |
Low Velocity Ratio Transverse Jets Influenced by Concentric Synthetic Jets | 257 |
Separation Control using Synthetic Jet Actuators | 271 |
Adaptive Neural Network Based Approach for Active Flow Control | 287 |
Optimization of Jet Mixing via Evolution Strategies | 299 |
Other editions - View all
Manipulation and Control of Jets in Crossflow Ann R. Karagozian,Luca Cortelezzi,Alfredo Soldati Limited preview - 2014 |
Manipulation and Control of Jets in Crossflow Ann R. Karagozian,Luca Cortelezzi,Alfredo Soldati No preview available - 2014 |
Common terms and phrases
actuation actuation frequency AIAA airfoil amplitude boundary conditions boundary layer Broadwell centerline circulation combustion computational concentration contours corresponding counter-rotating vortex pair diameter distribution domain downstream duty cycle dynamics effect Engineering entrainment equations evolution strategies evolutionary algorithms experimental experiments flame flow field Fluid Mech forcing free jet function Hasselbrink images increased initial interaction isocontours isosurface jet exit jet flows jet in crossflow jet injection jet penetration jet velocity jet-to-crossflow Karagozian Kelso laminar large-eddy simulation linear M'Closkey Mach number measurements mixing momentum Mungal nearfield nozzle optimization parameters particle dispersion Phys pipe plane plume pressure pulsed reburning reduced-order model region Reynolds number round jet scalar scale scramjet shear layer shown in Figure spanwise square wave streamwise Strouhal Strouhal number synthetic jet three-dimensional trajectory transverse jet turbulent jet upstream vector velocity field velocity profile velocity ratio vortex ring vortical structures vorticity field wake wall