Dialogue, equality and trust are keywords in our relations with our employees and all our collaboration partners www.risoe.dk EAWE PhD-Seminar, Risø 4.

Slides:

Advertisements

Similar presentations

Aerodynamic Characteristics of Airfoils and wings

Advertisements

LINFLOW 1.4 The Company.

Background Interest is in maximizing the maneuverability of flight vehicles changing lift vector – but it takes time for forces (lift) to change, even.

School of Mechanical, Aerospace & Civil Engineering Postgraduate Research Conference, PGR-MACE10 Performance of two k T -k L -ω models in a separation-induced.

Lift Theories Linear Motion.

Uncontrolled copy not subject to amendment

University of Southampton Southampton, UK

MAE 3241: AERODYNAMICS AND FLIGHT MECHANICS

The potentials of the controllable rubber trailing edge flap (CRTEF) Helge Aa. Madsen 1, Peter B. Andersen 1, Tom L. Andersen 2, Thomas Buhl 1, Christian.

Lecture # 3 Airfoil Aerodynamics.

MAE 3241: AERODYNAMICS AND FLIGHT MECHANICS

The Magic of… Bernoulli’s Principle. Aerodynamics is… The study of forces and the resulting motion of objects through the air.

The Magic of… Bernoulli’s Principle. Aerodynamics is… The study of forces and the resulting motion of objects through the air.

The Stall, Airfoil development, &Wing Lift and Span Effects

KEEL TRIM TAB AOE 3014 TAKE-HOME COMPUTER PROBLEM HONOR SYSTEM PLEDGE - NO AID GIVEN OR RECEIVED EXCEPT FOR PART 1 Part 1 DUE October 17, 2008;

Airfoils, Lift and Bernoulli’s Principle

Flow Over Immersed Bodies

Meeting Report -Flow Past Airfoils NACA-0012

ME 388 – Applied Instrumentation Laboratory Wind Tunnel Lab

Fundamentals of Engineering for Honors – ENG H192 Lab 4: Aerodynamics.

Analysis of Blade Performance in Compressible Flows P M V Subbarao Professor Mechanical Engineering Department Enhanced Effects due to Flow with Snestive.

Aero Engineering 315 Lesson 12 Airfoils Part I. First things first…  Recent attendance  GR#1 review  Pick up handout.

Basic Aerodynamic Theory and Drag

Douglas S. Cairns Lysle A. Wood Distinguished Professor

Wind Turbine Project Recap Wind Power & Blade Aerodynamics

Sandia is a multiprogram laboratory operated by Sandia Corporation, a Lockheed Martin Company, for the United States Department of Energy’s National Nuclear.

Computational Modelling of Unsteady Rotor Effects Duncan McNae – PhD candidate Professor J Michael R Graham.

Design Process Supporting LWST 1.Deeper understanding of technical terms and issues 2.Linkage to enabling research projects and 3.Impact on design optimization.

Using synthetic turbulence as an inlet condition for large eddy simulations Thomas P. Lloyd 1,2*, Stephen R. Turnock 1 and Victor F. Humphrey 2 1 Fluid.

A. Spentzos 1, G. Barakos 1, K. Badcock 1 P. Wernert 2, S. Schreck 3 & M. Raffel 4 1 CFD Laboratory, University of Glasgow, UK 2 Institute de Recherche.

MAE 3241: AERODYNAMICS AND FLIGHT MECHANICS Compressible Flow Over Airfoils: Linearized Subsonic Flow Mechanical and Aerospace Engineering Department Florida.

Heat Transfer from Ice Accretion Steven Mart Baylor University Scholar’s Day: Aeronautical & Processing Applications Rogers Engineering Building February.

Introduction to Fluid Mechanics

LOAD ALLEVIATION ON WIND TURBINE BLADES USING VARIABLE AIRFOIL GEOMETRY Thomas Buhl, Mac Gaunaa, Peter Bjørn Andersen and Christian Bak ADAPWING.

Incompressible Flow over Airfoils

A Survey of Aeroacoustic Considerations in Wind Turbines Robert Scott AE 6060.

Aerodynamics of Wind Turbines Part -3

Aerodynamic Ground Effect: a case-study of the integration of CFD and experiments Tracie Barber & Stephen Hall University of New South Wales, Sydney, Australia.

2D Airfoil Aerodynamics

1 Fluidic Load Control for Wind Turbine Blades C.S. Boeije, H. de Vries, I. Cleine, E. van Emden, G.G.M Zwart, H. Stobbe, A. Hirschberg, H.W.M. Hoeijmakers.

CE 1501 Flow Over Immersed Bodies Reading: Munson, et al., Chapter 9.

MECH 221 FLUID MECHANICS (Fall 06/07) Chapter 8: BOUNDARY LAYER FLOWS

Thin Aerofoil Theory for Development of A Turbine Blade

Notes on Chapter 29 Reflection & Refraction

Wind Energy Program School of Aerospace Engineering Georgia Institute of Technology Computational Studies of Horizontal Axis Wind Turbines PRINCIPAL INVESTIGATOR:

Aerodynamic Design of a Light Aircraft

Airfoils, Lift and Bernoulli’s Principle

Beard & McLain, “Small Unmanned Aircraft,” Princeton University Press, 2012, Chapter 4: Slide 1 Chapter 4 Forces and Moments.

Vertical Axis Wind Turbine Noise

Review of Airfoil Aerodynamics

MAE 3241: AERODYNAMICS AND FLIGHT MECHANICS

The concept of the airfoil (wing section)

A Angle of attack Middle line Velocity Cord

Partnerwise presentation

DYNAMIC STALL OCCURRENCE ON A HORIZONTAL AXIS WIND TURBINE BLADE

Aerodynamic Force Measurement

Aerofoil Theory : Development of Turbine Blade

Airfoils, Lift and Bernoulli’s Principle

Blade Design for Modern Wind Turbines

Prepared By S.S.Pon Sudhir Sajan AP/ Aeronautical Engineering/NIU

APISAT 2010 Sep. 13~15, 2010, Xi’An, China

Large Eddy Simulations of an Airfoil in Turbulent Inflow

Analyzing the Sound Pressure of Airfoil Self-Generated Noise

WING LOADING (W/S), SPAN LOADING (W/b) AND ASPECT RATIO (b2/S)

c/Maj Christopher Greves

Sunny Ri Li, Nasser Ashgriz

A Angle of attack Middle line Velocity Cord

Theory and its application

Prof. Dr. Mustafa Serdar GENÇ

Section 8, Lecture 1, Supplemental Effect of Pressure Gradients on Boundary layer • Not in Anderson.

Presentation transcript:

Dialogue, equality and trust are keywords in our relations with our employees and all our collaboration partners EAWE PhD-Seminar, Risø 4. October PhD-Student Brian Riget Broe Semi-Empirical modeling of Aerodynamical Noise Risø National Laboratory Frederiksborgvej Roskilde, Denmark Aeroacoustics and Fluctuating Lift

EAWE PhD-Seminar, Risø October, 2006 Sources of aerodynamic noise From Moriarty (2003)

EAWE PhD-Seminar, Risø October, 2006 Modeling the inflow noise Model by Amiet (1975) The power spectrum of the surface pressure Task: Find the Fluctuating lift for an arbitrary profile

EAWE PhD-Seminar, Risø October, D gust on a flat plate Sears (1941) and Graham (1971)

EAWE PhD-Seminar, Risø October, D gust on a flat plate, Results A sinusoidal gust impinging on a semi-infinite flat plate. k is the wave vector which is in the plane of the flat plate. The wave vector has the component  in the x-direction and in the y-direction. The wave front hits the edge of the plate in an angle. For the 1-D case is zero. Sears (1941) 1-D

EAWE PhD-Seminar, Risø October, 2006 Measured surface pressure (1) Measurements by Mish et al. (2006) for a NACA 0015 profile

EAWE PhD-Seminar, Risø October, 2006 Measured surface pressure (2) Measurements by Mish et al. (2006) for a NACA 0015 profile

EAWE PhD-Seminar, Risø October, D gust on a profile A sinusoidal gust impinging on a Joukowsky aerofoil. k is the wave vector. The wave vector has the component  in the x- direction and in the z-direction. For the 1-D case is zero. Goldstein and Atassi (1976)

EAWE PhD-Seminar, Risø October, 2006 Joint lift response of angle attack and camber

EAWE PhD-Seminar, Risø October, 2006 Lift response due to thickness

EAWE PhD-Seminar, Risø October, 2006 Summary A function for the fluctuating lift needs to be found for an arbitrary profile Measurements of the surface pressure is going to be made by Risø for a Risø profile Work on model by linearized theory to find the fluctuating lift due thickness

EAWE PhD-Seminar, Risø October, 2006 References Listed in order of appearence P. Moriarty and P. Migliore, Semi-Empirical Aeroacoustic Noise Prediction Code for Wind Tubines, 2003, NREL/TP R. K. Amiet, Acoustic Radiation From An Airfoil In A Turbulent Stream, 1975, J. Sound and Vibr., 41(4), P. F. Mish and W. J. Devenport, An experimental investigation of unsteady surface pressure on an airfoil in turbulence-Part 1: Effects of mean loading, 2006a, J. Sound and Vibr., 296, W. R. Sears, Some Aspects of Non-Stationary Airfoil Theory and Its Practical Application, 1941, J. of the Aeronatical Sc., Vol. 8, No. 3, J. M. R. Graham, Lifting Surface Theory for the Problem of an Arbitrarily Yawed Sinusoidal Gust Incident on a Thin Aerofoil in Imcompressible Flow, 1971, The Aeronautical Quart., M. E. Goldstein and H. Atassi, A complete second-order theory for the unsteady flow about an airfoil due to a period gust, 1976, J. Fluid Mech., vol. 74, part 4, H. M. Atassi, The Sears problem for a lifting airfoil revisited – new results, J. Fluid Mech., 1984, vol. 141,