Vortex Induced Vibrations. Contents: Vortices and Induced Vibrations. Phenomena and Reduction of Vortex Induced Vibrations. Latest Research Papers. Summary.

Slides:

Advertisements

Similar presentations

Boundary layer with pressure gradient in flow direction.

Advertisements

13.42 Lecture: Vortex Induced Vibrations

MECH 221 FLUID MECHANICS (Fall 06/07) Chapter 7: INVISCID FLOWS

Flow Disturbance of Flow due to Bends and Obstacles, etc. Time Transients and Spatial Distribution of Fluid Force on Structure Surface FLAVOR-3D: 3-D Fluid.

ISAT 241 ANALYTICAL METHODS III Fall 2004 D. J. Lawrence

Sound Intensity and Resonance. Intensity – the rate at which energy flows through a unit of area perpendicular to the direction of wave motion. Intensity.

External Flows.

Oscillations Simple Harmonic Motion Velocity and Acceleration in SHM

MAK4041-Mechanical Vibrations

Mechanical Vibrations Jeff Rhoads and Terry Ballinger MSU 2006.

CHAPTER 1O Measuring Fluid Flow Rate, Fluid Velocity,

 All objects have a NATURAL FREQUENCY at which they tend to vibrate. This frequency depends on the material the object is made of, the shape, and many.

Oscillations and Waves Forced Oscillations and Resonance.

© John Parkinson 1 VIBRATIONS & RESONANCE © John Parkinson 2 Natural Frequency / Free Vibrations the frequency at which an elastic system naturally tends.

Towers, chimneys and masts

Waves and Sound Ch

Characteristics of Waves Chapter 9 S8P4a. Identify the characteristics of electromagnetic and mechanical waves. S8P4d. Describe how the behavior of waves.

1 A R E S A eroelastic R enewable E nergy S ystem David Chesnutt, Adam Cofield, Dylan Henderson, Jocelyn Sielski, Brian Spears, Sharleen Teal, Nick Thiessen.

Oscillations and Waves Topic 4.3 Forced oscillations and resonance.

Basic bluff-body aerodynamics II

Boundary Layer Laminar Flow Re ‹ 2000 Turbulent Flow Re › 4000.

Separate branches of Mechanics and Biomechanics I. Periodic Motion. Mechanical waves. Acoustics.

RESONANCE MUSICAL ACOUSTICS Science of Sound Chapter 4.

Resonance. Bartons pendulums Observe the Barton’s pendulums Write down two observations.

Chapter 4 FLOWING FLUIDS AND PRESSURE VARIATION Fluid Mechanics Source:

Reynolds Transport Theorem We need to relate time derivative of a property of a system to rate of change of that property within a certain region (C.V.)

Aeroelastic effects Wind loading and structural response Lecture 14 Dr. J.D. Holmes.

Intensity of a Spherical Wave

Oscillations About Equilibrium. 7.1 Periodic Motion.

Ch 4 Fluids in Motion.

Tacoma Narrows Bridge From TPT. Vertical Oscillations The only observed oscillation up until an hour before the collapse was vertical. Example of simple.

Fluid Mechanics SEMESTER II, 2010/2011

APHY201 2/3/ Resonance   Matching an object’s natural frequency with an external force   Since most objects have elastic properties, resonance.

Properties of a Wave. Waves have properties… Just like different substances have different properties –Example: Water has a freezing point, a boiling.

RESONANCE MUSICAL ACOUSTICS Science of Sound Chapter 4.

ME 440 Intermediate Vibrations

The Nature of Sound. Sound is Longitudinal  Longitudinal wave or compression wave  Compression vs. rarefaction  Longitudinal wave or compression wave.

FLUID FOW FOR CHEMICAL ENGINEERING

Vibrations and Sound Chapter 17. Sound travels as a wave, so it exhibits reflection, refraction, diffraction and interference. We hear sound due to the.

Resonance. Natural Frequencies All objects have certain frequencies that it vibrates at with the lowest amount of resistance. This is called the natural.

1 Chapter 15 Objectives: 1) Explain a sound wave in terms of wave type and classification. 2) Describe a medium’s characteristics that affect the speed.

By Willie Hustead. What is sound? Sound is a sequence of waves of pressure that travel through media such as air or water that is able to compress easily.

 Please take out: Sound Station Lab Natural frequency and resonance notes.

SOUND AND LIGHT Chapter 1 THE ENERGY OF WAVES. Section 3 Wave Interactions.

Date of download: 7/8/2016 Copyright © ASME. All rights reserved. From: An Approximate Formula to Calculate the Restoring and Damping Forces of an Air.

INSECTS AND HYDRODYNAMICS:

Chapter Six, Seven and Eight

L 20 – Vibration, Waves and Sound-1

Selected Topics in Engineering Acoustics

Tacoma Narrows Bridge & Aeroelastic Fluttering

Fluid Force Identification

FORCED VIBRATION & DAMPING WK 2

MAK4041-Mechanical Vibrations

Vortex Induced Vibration in Centrifugal pump ( case study)

Sound Intensity & Resonance

AP Physics Sections 11-4 to 11-6 Simple pendulum,

Vibrations & Waves Part 1: Periodic Motion.

Please take out: Sound Station Lab

Chapter 13 Objectives Explain why resonance occurs.

Sound Intensity and Resonance

Example 7-12 A group of extended bodies, each with a known CM. Find the CM of the group.

Damped and driven oscillations

REAL FLUIDS SECTION 4.

Chapter 13 Sound Section 1 Sound Waves.

VIBRATIONS NATURAL VIBRATIONS DAMPED VIBRATIONS FORCED VIBRATIONS.

Wave Interactions.

REGENTS PHYSICS MR. BALDWIN

Free and Damped Oscillations

Oscillations and Waves

Presentation transcript:

Vortex Induced Vibrations

Contents: Vortices and Induced Vibrations. Phenomena and Reduction of Vortex Induced Vibrations. Latest Research Papers. Summary.

Vortices: A vortex is defined as the motion of multitude of fluid particles around a common center. Types of vortices: - Forced Vortex - Free Vortex

Vortices in the Real World: Vortices in the real world like Tornados, Whirlpool in rivers are often a combination of free and forced vortices. Forced vortex flow occurs at and near the center of the vortex while free vortex conditions are approximated outside this region.

Fig.(1) Velocity Distribution

Flow-Induced Vibration: The vibration caused by a fluid flowing around a body is known as flow-induced vibration. In the following examples, the vibration of the system continuously extracts energy from the source, leading to larger and larger amplitudes of vibration.

Phenomena of Induced Vibration: - Tall chimneys, Submarine periscopes, Electric transmission lines and Nuclear fuel rods are found to vibrate violently under certain conditions of fluid flow around them. - Similarly, water and oil pipe lines and tubes in air compressors undergo sever vibrations under certain conditions of fluid flow through them.

In ice-covered electric transmission lines and the unstable vibration, known as flutter, of air foil sections. High frequency vibration known as singing of transmission lines occurs due to the phenomena of vortex shedding.

Why Vortex Shedding Phenomena: Vortex shedding was the primary cause of failure of the Tacoma Narrows suspension bridge in the state of Washington in If the frequency of the vortex shedding is in resonance with the natural frequency of the member that produces it, large amplitudes of vibrations with resulting large stresses can develop.

Experimental data show that regular vortex shedding occurs strongly in the range of Reynolds number (Re) from about 60 to Experiments shows also that the frequency of shedding is given in terms of Strouhal number (St), and this in turn is a function of the Reynolds number. Other cylindrical and two dimensional bodies can also shed vortices.

Reduction of Flow-Induced Vibration: