000			04390cam a22006498i 4500
001			on1284932170
003			OCoLC
005			20220711203725.0
006			m o d
007			cr |||||||||||
008			210908s2022 nju o 001 0 eng
010			_a 2021043870
040			_aDLC _beng _erda _cDLC _dDG1
020			_z9781119810995 _q(obook)
020			_z9781119810964 _q(hardback)
020			_a9781119810988 _q(epub)
020			_a1119810981
020			_a9781119810971 _q(ePDF)
020			_a1119810973
020			_a111981099X _q(electronic bk. : oBook)
020			_a9781119810995 _q(electronic bk. : oBook)
024	7		_a10.1002/9781119810995 _2doi
035			_a(OCoLC)1284932170
042			_apcc
050	0	0	_aTP156.F6
082	0	0	_a532/.5 _223/eng/20211108
049			_aMAIN
245	0	0	_aFlow-induced vibration handbook for nuclear and process equipment / _c[edited by] Michel J. Pettigrew, Colette E. Taylor, Nigel J. Fisher.
250			_aFirst edition.
263			_a2111
264		1	_aHoboken, NJ : _bJohn Wiley & Sons, Inc., _c2022.
300			_a1 online resource
336			_atext _btxt _2rdacontent
337			_acomputer _bc _2rdamedia
338			_aonline resource _bcr _2rdacarrier
490	1		_aWiley-ASME Press series
500			_aIncludes index.
520			_a"Flow-induced vibration is the term for the phenomena of vibration and noise that is caused by fluid flow. Excessive flow-induced vibrations can cause fatigue or failure in process and plant equipment, which can in turn lead to operational disruptions, lost production, and costly repairs. Mechanical engineers can help avoid these issues by performing a flow-induced vibration analysis during the design phase of a project. Industries that employ plants with high capital costs, such as the nuclear, power, petrochemical, and aerospace industries, have a particular interest in understanding and mitigating flow-induced vibrations"-- _cProvided by publisher.
588			_aDescription based on print version record and CIP data provided by publisher; resource not viewed.
505	0		_aFront Matter -- Introduction and Typical Vibration Problems / Michel J Pettigrew -- Flow-Induced Vibration of Nuclear and Process Equipment / Michel J Pettigrew, Colette E Taylor -- Flow Considerations / John M Pietralik, Liberat N Carlucci, Colette E Taylor, Michel J Pettigrew -- Hydrodynamic Mass, Natural Frequencies and Mode Shapes / Daniel J Gorman, Colette E Taylor, Michel J Pettigrew -- Damping of Cylindrical Structures in Single-Phase Fluids / Michel J Pettigrew -- Damping of Cylindrical Structures in Two-Phase Flow / Michel J Pettigrew, Colette E Taylor -- Fluidelastic Instability of Tube Bundles in Single-Phase Flow / Michel J Pettigrew, Colette E Taylor -- Fluidelastic Instability of Tube Bundles in Two-Phase Flow / Michel J Pettigrew, Colette E Taylor -- Random Turbulence Excitation in Single-Phase Flow / Colette E Taylor, Michel J Pettigrew -- Random Turbulence Excitation Forces Due to Two-Phase Flow / Colette E Taylor, Michel J Pettigrew -- Periodic Wake Shedding and Acoustic Resonance / David S Weaver, Colette E Taylor, Michel J Pettigrew -- Assessment of Fretting-Wear Damage in Nuclear and Process Equipment / Michel J Pettigrew, Metin Yetisir, Nigel J Fisher, Bruce A W Smith, Victor P Janzen -- Fretting-Wear Damage Coefficients / Nigel J Fisher, Fabrice M Gurout -- Appendix A: Component Analysis.
590			_bWiley Frontlist Obook All English 2021
650		0	_aHydrodynamics. _910285
650		0	_aPressure vessels _xFluid dynamics. _910286
650		0	_aPressure vessels _xVibration. _910287
650		0	_aPiping _xFluid dynamics. _910288
650		0	_aChemical plants _xPiping _xVibration. _910289
650		0	_aNuclear power plants _xPiping _xVibration. _910290
655		4	_aElectronic books. _93294
700	1		_aPettigrew, M. J., _eeditor. _910291
700	1		_aTaylor, Colette E., _eeditor. _910292
700	1		_aFisher, N. J. _q(Nigel John), _d1959- _eeditor. _910293
776	0	8	_iPrint version: _tFlow-induced vibration handbook for nuclear and process equipment _bFirst edition. _dHoboken, NJ : John Wiley & Sons, Inc., 2022 _z9781119810964 _w(DLC) 2021043869
830		0	_aWiley-ASME Press series. _94863
856	4	0	_uhttps://doi.org/10.1002/9781119810995 _zWiley Online Library
942			_cEBK
994			_a92 _bDG1
999			_c69661 _d69661