This book applies vibration engineering to turbomachinery, covering installation, maintenance and operation. With a practical approach based on clear theoretical principles and formulas, the book is an essential how-to guide for all professional engineers dealing with vibration issues within turbomachinery. Vibration problems in turbines, large fans, blowers, and other rotating machines are common issues within turbomachinery. Applicable to industries such as oil and gas mining, cement, pharmaceutical and naval engineering, the ability to predict vibration based on frequency spectrum patterns is essential for many professional engineers. In this book, the theory behind vibration is clearly detailed, providing an easy to follow methodology through which to calculate vibration propagation. Describing lateral and torsional vibration and how this impacts turbine shaft integrity, the book uses mechanics of materials theory and formulas alongside the matrix method to provide clear solutions to vibration problems. Additionally, it describes how to carry out a risk assessment of vibration fatigue. Other topics covered include vibration control techniques, the design of passive and active absorbers and rigid, non-rigid and Z foundations. The book will be of interest to professionals working with turbomachinery, naval engineering corps and those working on ISO standards 10816 and 13374. It will also aid mechanical engineering students working on vibration and machine design.
Contents
Preface................................................................................................................xvii
Acknowledgements............................................................................................. xxi
About the Author...............................................................................................xxiii
Abbreviations..................................................................................................... xxv
PART I Vibration Theory of SDOF, MDOF and Continuous Dynamic Systems
Chapter 1 Dynamics of Linear SDOF Systems ……………………………….. 3
Chapter 2 Dynamics of Rotating SDOF Systems ……………………………. 65
Chapter 3 Dynamics of Linear and Rotating MDOF and Continuous Systems ……. 85
Part II Turbo Machines And Ship Vibrations
Chapter 4 Critical Velocity of Turbomachines ……………………………………………….. 125
Chapter 5 Lateral Vibration of Turbomachines ………………………………………………. 145
Chapter 6 Vibratory Forces in Turbomachines ………………………………………………… 161
Chapter 7 Ship’s Oscillation and Vibration ………………………………………………………. 187
Part III Vibration Control Systems
Chapter 8 Vibration Isolation ……………………………………………………………………….. 221
Chapter 9 Vibration Absorption ……………………………………………………………………. 251
Chapter 10 Vibration Control Techniques ……………………………………………………….. 285
Chapter 11 Feedback Control Techniques ………………………………………………………. 303
Index................................................................................................................................ 351
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