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Informationen zum Autor Ronald D. Joslin manages the Turbulence and Stratified Wakes and Submarine Maneuvering and Control Programs at the Office of Naval Research. Ron is a senior member of the AIAA! a member of the AIAA Fluid Dynamics Technical Committee! and the Technical Chair for the 3rd AIAA Flow Control Conference. Gregory S. Jones is a Senior Research Scientist at the NASA Langley Research Center! Greg's recent research has included wind tunnel experiments using a steady and pulsed Coanda circulation control general aviation wing. Greg is a member of AIAA and has previously served on the AIAA Ground Test Technical Committee Klappentext Based on papers from the 2004 NASA/ONR Circulation Control Workshop! this collection is an invaluable! one-of-a-kind resource on the state of the art in circulation control technologies and applications. Filling the information gap between 1986 -- when the last such symposium was held -- and today! it summarizes the applications! experiments! computations and theories related to circulation control! emphasizing fundamental physics! systems analysis and applied research. The papers presented cover a wide variety of aerodynamic and hydrodynamic applications including naval vehicles! fixed-wing aviation! V/STOL platforms! propulsion systems and ground vehicles. Anyone with interests in applied aerodynamics! fluid mechanics and aircraft design will find this book of particular value! as will those seeking a an up-to-date reference work on circulation control and its many current applications. Inhaltsverzeichnis * Overview; * Advantages of Combining BLC Suction with Circulation Control High Lift Generation; * Circulation Control Pneumatic Aerodynamics Overview: Blown Force and Moment Augmentation and Modification as Applied Primarily to Fixed Wing Aircraft; * Exploratory Investigations of Circulation Control Technology: Overview for Period 1987-2003 at NSWCCD; * II. Experiments and Applications: Fundamental Flow Physics; * Measurements and Analysis of Circulation Control Airfoils; * Some Circulation and Separation Control Experiments; * Noise Reduction Through Circulation Control; * III. Experiments and Applications: Aerospace; * Pneumatic Flap Performance for a Two-Dimensional Circulation Control Airfoil! Steady and Pulsed; * Trailing Edge Circulation Control of an Airfoil at Transonic Mach Numbers; * Experimental and Computational Investigation into the Use of the Coanda Effect on the Bell A821201 Airfoil; * Novel Flow Control Method for Airfoil. Performance Enhancement Using Co-Flow Jet; * Experimental Development and Evaluation of Pneumatic Powered-Lift Super-STOL Aircraft; * Use of Circulation Control for Flight Control; * IV. Experiments and Applications: Non-Aerospace; * Pneumatic Aerodynamic Technology to Improve Performance and Control of Automotive Vehicles; * Aerodynamic Heat Exchanger: A Novel Approach to Radiator Design Using Circulation Control; * V. Tools for Predicting Circulation Control Performance: NCCR 1510 Airfoil Test Case; * Investigation of Turbulent Coanda Wall Jets Using DNS and RANS; * RANS and Detached-Eddy Simulation of the NCCR Airfoil; * Full Reynolds Stress Modeling of Circulation Control Airfoils; * VI. Tools for Predicting Circulation Control Performance: NCCR 103RE Airfoil Test Case; * Aspects of Numerical Simulation of Circulation Control Airfoils; * Role of Turbulence Modeling in Flow Prediction of Circulation Control Airfoils; * VII. Tools for Predicting Circulation Control Performance: GACC Airfoil Test Case; * Simulation of Steady Circulation Control for the General Aviation Circulation Control (GACC) Wing; * Computational Study of a Circulation Control Airfoil Using FLUENT; * VIII. Tools for Predicting Circulation Control Performance: Additional CFD Applications; * Computational Evaluation of Steady and Pulsed Jet Effects on a Circulation Control Airfoil; * Time-Accurate Simulati...
