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Author

Frank Fahy

Bio: Frank Fahy is an academic researcher from University of Southampton. The author has contributed to research in topics: Vibration & Sound (geography). The author has an hindex of 25, co-authored 100 publications receiving 5786 citations.


Papers
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Book
11 Feb 1987
TL;DR: Wave in Fluids and Structures and Numerically Based Analyses of Fluid-Structure Interaction are presented, which show the importance of knowing the carrier and removal properties of wave energy.
Abstract: Chapter 1. Wave in Fluids and Structures Chapter 2. Structural Mobility, Impedance, Vibrational Energy and Power Chapter 3. Sound Radiation by Vibrating Structures Chapter 4. Fluid Loading of Vibrating Structures Chapter 5. Transmission of Sound Through Partitions Chapter 6. Acoustically Induced Vibration of Structures Chapter 7. Acoustic Coupling between Structures and Enclosed Volumes of Fluid Chapter 8. Introduction to Numerically Based Analyses of Fluid-Structure Interaction Chapter 9. Introduction to Active Control of Sound Radiation and Transmission

809 citations

Book
01 Jan 1985

674 citations

01 Jan 1985
TL;DR: In this paper, the authors introduce the concept of active control of sound radiation and transmission of sound through partitions and acoustic coupling between Structures and Enclosed Volumes of Fluid.
Abstract: Chapter 1. Wave in Fluids and Structures Chapter 2. Structural Mobility, Impedance, Vibrational Energy and Power Chapter 3. Sound Radiation by Vibrating Structures Chapter 4. Fluid Loading of Vibrating Structures Chapter 5. Transmission of Sound Through Partitions Chapter 6. Acoustically Induced Vibration of Structures Chapter 7. Acoustic Coupling between Structures and Enclosed Volumes of Fluid Chapter 8. Introduction to Numerically Based Analyses of Fluid-Structure Interaction Chapter 9. Introduction to Active Control of Sound Radiation and Transmission

350 citations


Cited by
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Book
01 Oct 2013
TL;DR: In this paper, the fundamental physical processes involved in bubble dynamics and the phenomenon of cavitation are described and explained, and a review of the free streamline methods used to treat separated cavity flows with large attached cavities is provided.
Abstract: This book describes and explains the fundamental physical processes involved in bubble dynamics and the phenomenon of cavitation. It is intended as a combination of a reference book for those scientists and engineers who work with cavitation or bubble dynamics and as a monograph for advanced students interested in some of the basic problems associated with this category of multiphase flows. A basic knowledge of fluid flow and heat transfer is assumed but otherwise the analytical methods presented are developed from basic principles. The book begins with a chapter on nucleation and describes both the theory and observations of nucleation in flowing and non-flowing systems. The following three chapters provide a systematic treatment of the dynamics of the growth, collapse or oscillation of individual bubbles in otherwise quiescent liquids. Chapter 4 summarizes the state of knowledge of the motion of bubbles in liquids. Chapter 5 describes some of the phenomena which occur in homogeneous bubbly flows with particular emphasis on cloud cavitation and this is followed by a chapter summarizing some of the experiemntal observations of cavitating flows. The last chapter provides a review of the free streamline methods used to treat separated cavity flows with large attached cavities.

2,994 citations

Journal ArticleDOI
TL;DR: Vibration measurement in both time and frequency domains along with signal processing techniques such as the high-frequency resonance technique have been covered and recent trends in research on the detection of defects in bearings have been included.

1,229 citations

Journal ArticleDOI
TL;DR: In this article, the effects of Reynolds number in the nominal case of an infinitely long and non-confined cylinder in a smooth oncoming flow are discussed, from about Re = 47 to 2 x 10(5), i.e., from the onset of vortex shedding up to the end of the subcritical regime.

939 citations

Book
19 May 2005
TL;DR: In this article, the authors present a detailed review of liquid sloshing dynamics in rigid containers, including linear forced and non-linear interaction under external and parametric excitations.
Abstract: Preface Introduction 1. Fluid field equations and modal analysis in rigid containers 2. Linear forced sloshing 3. Viscous damping and sloshing suppression devices 4. Weakly nonlinear lateral sloshing 5. Equivalent mechanical models 6. Parametric sloshing (Faraday's waves) 7. Dynamics of liquid sloshing impact 8. Linear interaction of liquid sloshing with elastic containers 9. Nonlinear interaction under external and parametric excitations 10. Interactions with support structures and tuned sloshing absorbers 11. Dynamics of rotating fluids 12. Microgravity sloshing dynamics Bibliography Index.

920 citations

MonographDOI
TL;DR: In this paper, the analysis of noise and vibration signals is presented. But the authors focus on a case study of pipe flow noise and vibrations and use it as a diagnostic tool.
Abstract: Preface Acknowledgements Introductory comments 1. Mechanical vibrations: a review of some fundamentals 2. Sound waves: a review of some fundamentals 3. Interactions between sound waves and solid structures 4. Noise and vibration measurement and control procedures 5. The analysis of noise and vibration signals 6. Statistical energy analysis of noise and vibration 7. Pipe flow noise and vibration: a case study 8. Noise and vibration as a diagnostic tool 9. Worked examples Appendices Problems Answers to problems Index.

648 citations