IUTAM Symposium on Flow Control and MEMS Proceedings of the IUTAM Symposium held at the Royal Geographical Society, 19-22 September 2006, hosted by Imperial College, London, England /
Autor Corporativo: | |
---|---|
Otros Autores: | , , |
Formato: | eBook |
Lenguaje: | English |
Publicado: |
Dordrecht :
Springer Netherlands : Imprint: Springer,
2008.
|
Edición: | 1st ed. 2008. |
Colección: | IUTAM Bookseries,
7 |
Materias: | |
Acceso en línea: | https://doi.org/10.1007/978-1-4020-6858-4 |
Tabla de Contenidos:
- MEMS Devices
- High Power Density MEMS: Materials and Structures Requirements
- MEMS for Flow Control: Technological Facilities and MMMS Alternatives
- MEMS-Based Electrodynamic Synthetic Jet Actuators for Flow Control Applications
- Suction and Oscillatory Blowing Actuator
- Numerical Investigation of a Micro-Valve Pulsed-Jet Actuator
- Characterization of MEMS Pulsed Micro-Jets with Large Nozzles
- Magnetically Actuated Microvalves for Active Flow Control
- Micromachined Shear Stress Sensors for Flow Control Applications
- Synthetic Jets
- Synthetic Jets and Their Applications for Fluid/Thermal Systems
- Is Helmholtz Resonance a Problem for Micro-Jet Actuators?
- Passive Scalar Mixing Downstream of a Synthetic Jet in Crossflow
- Towards a Practical Synthetic Jet Actuator for Industrial Scale Flow Control Applications
- Measurements of Synthetic Jets in a Boundary Layer
- Large-Eddy Simulations of Synthetic Jets in Stagnant Surroundings and Turbulent Cross-Flow
- Characteristics of Small-Scale Synthetic Jets — Numerical Investigation
- Large Eddy Simulations of Transitional and Turbulent Flows in Synthetic Jet Actuators
- Separation Control
- Model Reduction and Control of a Cavity-Driven Separated Boundary Layer
- Collaborative Studies on Flow Separation Control
- High Resolution PIV Study of Zero-Net-Mass-Flow Lift Enhancement of NACA 0015 Airfoil at High Angles of Attack
- Separation Control along a NACA 0015 Airfoil Using a Dielectric Barrier Discharge Actuator
- Dynamic Surface Pressure Based Estimation for Flow Control
- The Control of Laminar Separation Bubbles Using High- and Low-Amplitude Forcing
- Control of Subsonic Flows with High Voltage Discharges
- Control of Flow Separation on a Wing Profile Using PIV Measurements and POD Analysis
- Control of the Shear-Layer in the Wake of an Axisymmetrical Airfoil Using a DBD Plasma Actuator
- Drag Reduction and Mixing
- Models for Adaptive Feedforward Control of Turbulence
- Minimum Sustainable Drag for Constant Volume-Flux Pipe Flows
- Enhancement of Suboptimal Controllability in Wall Turbulence
- An Improvement of Opposition Control at High Reynolds Numbers
- Direct Numerical Simulation of Alternated Spanwise Lorentz Forcing
- Boundary Layer Control for Drag Reduction by Lorentz Forcing
- Multi-Scale Flow Control for Efficient Mixing: Laboratory Generation of Unsteady Multi-Scale Flows Controlled by Multi-Scale Electromagnetic Forces
- Multi-Scale Flow Control for Efficient Mixing: Simulation of Electromagnetically Forced Turbulent-Like Laminar Flows
- Closed-Loop Control
- Active Control of Laminar Boundary Layer Disturbances
- Low-Dimensional Tools for Closed-Loop Flow-Control in High Reynolds Number Turbulent Flows
- Evolutionary Optimization of Feedback Controllers for Thermoacoustic Instabilities
- Active Cancellation of Tollmien-Schlichting Instabilities in Compressible Flows Using Closed-Loop Control
- Optimal Boundary Flow Control: Equivalence of Adjoint and Co-State Formulations and Solutions
- Optimal Growth of Linear Perturbations in Low Pressure Turbine Flows
- Simulations of Feedback Control of Early Transition in Poiseuille Flow
- A Switched Reduced-Order Dynamical System for Fluid Flows under Time-Varying Flow Conditions
- Strategies for Optimal Control of Global Modes
- Applications
- Modeling and Development of Synthetic Jet Actuators in Flow Separation Control Application
- Feedback Control Using Extremum Seeking Method for Drag Reduction of a 3D Bluff Body
- Flow Control in Turbomachinery Using Microjets
- ONERA/IEMN Contribution within the ADVACT Program: Actuators Evaluation
- Control of Flow-Induced Vibration of Two Side-by-Side Cylinders Using Micro Actuators
- Improvement of the Jet-Vectoring through the Suppression of a Global Instability
- Passive Control
- Experimental Optimization of Bionic Dimpled Surfaces on Axisymmetric Bluff Bodies for Drag Reduction
- Flow Regularisation and Drag Reduction around Blunt Bodies Using Porous Devices
- The Effects of Aspect Ratio and End Condition on the Control of Free Shear Layers Development and Force Coefficients for Flow Past Four Cylinders in the In-line Square Configuration
- Numerical Simulation on the Control of Drag Force and Vortex Formation by Different Wavy (Varicose) Cylinders
- Passive Multiscale Flow Control by Fractal Grids
- Hydraulic Model of the Skin Friction Reduction with Surface Grooves
- Vortex Shedding behind a Tapered Cylinder and Its Control
- Control of a Separated Flow over a Smoothly Contoured Ramp Using Vortex Generators
- Biomimetic Flight and Flow Control: Learning from the Birds.