Verfügbarkeit: Engineering fluid mechanics

Engineering fluid mechanics:

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Bibliographische Detailangaben
1. Verfasser:	Yamaguchi, Hiroshi (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Dordrecht [u.a.] Springer 2008
Schriftenreihe:	Fluid mechanics and its applications 85
Schlagworte:	Fluid mechanics Strömungsmechanik Lehrbuch
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 573 S. Ill., graph. Darst.
ISBN:	9781402067419 1402067410

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Datensatz im Suchindex

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adam_text	Contents Introduction ....................................................................................... 1 1. Fundamentals in Continuum Mechanics .................................... 5 1.1 Dynamics of Fluid Motion ....................................................... 5 1.2 Dynamics in Rotating Reference Frame .................................. 16 1.3 Material Objectivity and Convective Derivatives .................... 19 1.4 Displacement Gradient and Relative Strain ............................. 22 1.5 Reynolds* Transport Theorem .................................................. 23 1.6 Forces on Volume Element ...................................................... 26 Exercise .......................................................................................... 30 Problems ........................................................................................ 38 Nomenclature ................................................................................. 40 Bibliography .................................................................................. 41 2. Conservation Equations in Continuum Mechanics ................... 43 2.1 Mass Conservation ................................................................... 43 2.2 Linear Momentum Conservation ............................................. 44 2.3 Angular Momentum Conservation ........................................... 47 2.4 Energy Conservation ................................................................ 52 2.5 Thermodynamic Relations ....................................................... 56 Exercise .......................................................................................... 62 Problems ........................................................................................ 69 Nomenclature ................................................................................. 70 Bibliography .................................................................................. 71 3. Fluid Static and Interfaces ........................................................... 73 3.1 Fluid Static ............................................................................... 73 3.2 Fluid-fluid Interfaces ............................................................... 87 Exercise .......................................................................................... 90 Problems ........................................................................................ 110 Nomenclature ................................................................................. 112 Bibliography .................................................................................. 113 xi xii Contents 4. Perfect Flow ................................................................................... 115 4.1 Potential and Inviscid Flows .................................................... 115 Exercise ......................................................................................... 129 Problems ........................................................................................ 173 4.2 General Theories of Turbomachinery ...................................... 180 4.2.1 Moment of Momentum Theory ...................................... 183 4.2.2 Airfoil Theory ................................................................ 188 4.2.3 Efficiency and Similarity Rules of Turbomachinery ...... 194 4.2.4 Cavitation ....................................................................... 203 Exercise ......................................................................................... 208 Problems ........................................................................................ 218 Nomenclature ................................................................................. 220 Bibliography .................................................................................. 222 5. Compressible Flow ........................................................................ 225 5.1 Speed of Sound and Mach Number ......................................... 225 5.2 Iscntropic Flow ........................................................................ 230 5.3 Fanno and Rayleigh Lines ....................................................... 241 5.4 Normal Shock Waves ............................................................... 246 5.5 Oblique Shock Wave ................................................................ 251 Exercise ......................................................................................... 255 Problems ........................................................................................ 271 Nomenclature ................................................................................. 276 Bibliography .................................................................................. 277 6. Newtonian Flow ............................................................................ 279 6.1 Navier-Stokes Equation ........................................................... 282 Problems ........................................................................................ 285 6.2 Similitude and Nondimensionalization .................................... 286 Exercise ......................................................................................... 295 Problems ........................................................................................ 298 6.3 Basic Flows Derived from Navier-Stokes Equation ................ 298 6.3.1 Unidirectional Flow in a Gap Space .............................. 299 6.3.2 Lubrication Theory ......................................................... 306 6.3.3 Flow Around a Sphere .................................................... 312 Problems ........................................................................................ 318 6.4 Flow Through Pipe .................................................................. 319 6.4.1 Entrance Flow ................................................................ 320 6.4.2 Fully Developed Flow in Pipe ....................................... 322 6.4.3 Transient Hagen-Poiscuille Flow in Pipe ....................... 330 Contents xiii Exercise ......................................................................................... 334 Problems........................................................................................ 339 6.5 Laminar Boundary Layer Theory ........................................... 340 6.5.1 Flow over a Flat Plate .................................................... 340 6.5.2 Integral Analysis of Boundary Layer Equation .............. 346 6.5.3 Boundary Layer Separation ............................................ 350 6.5.4 Integral Relation for Thermal Energy ............................ 353 Exercise .......................................................................................... 355 Problems ........................................................................................ 362 6.6 Turbulent Flow ......................................................................... 364 6.6.1 Turbulence Models ......................................................... 370 6.6.2 Turbulent Heat Transfer ................................................. 381 Exercise .......................................................................................... 385 Problems ........................................................................................ 390 Nomenclature ................................................................................. 391 Bibliography .................................................................................. 394 7. Non-Newtonian Fluid and Flow ................................................... 399 7.1 Non-Newtonian Fluids and Generalized Newtonian Fluid Flow ...................................................................................... 400 7.1.1 Rheological Classifications ............................................ 400 7.1.2 Generalized Newtonian Fluid Flows .............................. 406 Exercise .......................................................................................... 408 Problems ........................................................................................ 415 7.2 Standard Flow and Material Functions .................................... 417 7.2.1 Simple Shear Flow ......................................................... 418 7.2.2 Shearfree Flow ............................................................... 421 7.2.3 Oscillatory Rheometric Flow ......................................... 424 7.2.4 Viscometric Flow in Rheometry .................................... 428 Exercise .......................................................................................... 437 Problems ........................................................................................ 445 7.3 Viscoelastic Fluid and Flow ..................................................... 447 7.3.1 Linear Viscoelastic Rheological Equations .................... 448 7.3.2 Linear and Nonlinear Viscoelastic Models .................... 456 7.3.3 Viscoelastic Models to Standard Flow and Application to Some Engineering Flow Problems ............................ 465 7.3.3.1 UCM. CRM and Giesekus Equations ................ 465 7.3.3.2 Unidirectional Basic Flow Problems ................. 472 Exercise .......................................................................................... 478 Problems ........................................................................................ 489 Nomenclature ................................................................................. 491 Bibliography .................................................................................. 493 xiv Contents 8. Magnetic Fluid and Flow ............................................................. 497 8.1 Thermophysical Properties ...................................................... 498 Exercise ......................................................................................... 504 Problems ........................................................................................ 506 8.2 Ferrohydrodynamic Equations ................................................ 507 Exercise ......................................................................................... 516 Problems ........................................................................................ 519 8.3 Basic Flows and Applications .................................................. 520 8.3.1 Generalized Bernoulli Equation ..................................... 521 8.3.2 Hydrostatics ................................................................... 522 8.3.3 Thermoconvective Phenomena ...................................... 527 Exercise ......................................................................................... 532 Problems ........................................................................................ 537 Nomenclature ................................................................................. 538 Bibliography .................................................................................. 540 Appendix ............................................................................................ 543 Index .................................................................................................. 561
adam_txt	Contents Introduction . 1 1. Fundamentals in Continuum Mechanics . 5 1.1 Dynamics of Fluid Motion . 5 1.2 Dynamics in Rotating Reference Frame . 16 1.3 Material Objectivity and Convective Derivatives . 19 1.4 Displacement Gradient and Relative Strain . 22 1.5 Reynolds* Transport Theorem . 23 1.6 Forces on Volume Element . 26 Exercise . 30 Problems . 38 Nomenclature . 40 Bibliography . 41 2. Conservation Equations in Continuum Mechanics . 43 2.1 Mass Conservation . 43 2.2 Linear Momentum Conservation . 44 2.3 Angular Momentum Conservation . 47 2.4 Energy Conservation . 52 2.5 Thermodynamic Relations . 56 Exercise . 62 Problems . 69 Nomenclature . 70 Bibliography . 71 3. Fluid Static and Interfaces . 73 3.1 Fluid Static . 73 3.2 Fluid-fluid Interfaces . 87 Exercise . 90 Problems . 110 Nomenclature . 112 Bibliography . 113 xi xii Contents 4. Perfect Flow . 115 4.1 Potential and Inviscid Flows . 115 Exercise . 129 Problems . 173 4.2 General Theories of Turbomachinery . 180 4.2.1 Moment of Momentum Theory . 183 4.2.2 Airfoil Theory . 188 4.2.3 Efficiency and Similarity Rules of Turbomachinery . 194 4.2.4 Cavitation . 203 Exercise . 208 Problems . 218 Nomenclature . 220 Bibliography . 222 5. Compressible Flow . 225 5.1 Speed of Sound and Mach Number . 225 5.2 Iscntropic Flow . 230 5.3 Fanno and Rayleigh Lines . 241 5.4 Normal Shock Waves . 246 5.5 Oblique Shock Wave . 251 Exercise . 255 Problems . 271 Nomenclature . 276 Bibliography . 277 6. Newtonian Flow . 279 6.1 Navier-Stokes Equation . 282 Problems . 285 6.2 Similitude and Nondimensionalization . 286 Exercise . 295 Problems . 298 6.3 Basic Flows Derived from Navier-Stokes Equation . 298 6.3.1 Unidirectional Flow in a Gap Space . 299 6.3.2 Lubrication Theory . 306 6.3.3 Flow Around a Sphere . 312 Problems . 318 6.4 Flow Through Pipe . 319 6.4.1 Entrance Flow . 320 6.4.2 Fully Developed Flow in Pipe . 322 6.4.3 Transient Hagen-Poiscuille Flow in Pipe . 330 Contents xiii Exercise . 334 Problems. 339 6.5 Laminar Boundary Layer Theory . 340 6.5.1 Flow over a Flat Plate . 340 6.5.2 Integral Analysis of Boundary Layer Equation . 346 6.5.3 Boundary Layer Separation . 350 6.5.4 Integral Relation for Thermal Energy . 353 Exercise . 355 Problems . 362 6.6 Turbulent Flow . 364 6.6.1 Turbulence Models . 370 6.6.2 Turbulent Heat Transfer . 381 Exercise . 385 Problems . 390 Nomenclature . 391 Bibliography . 394 7. Non-Newtonian Fluid and Flow . 399 7.1 Non-Newtonian Fluids and Generalized Newtonian Fluid Flow . 400 7.1.1 Rheological Classifications . 400 7.1.2 Generalized Newtonian Fluid Flows . 406 Exercise . 408 Problems . 415 7.2 Standard Flow and Material Functions . 417 7.2.1 Simple Shear Flow . 418 7.2.2 Shearfree Flow . 421 7.2.3 Oscillatory Rheometric Flow . 424 7.2.4 Viscometric Flow in Rheometry . 428 Exercise . 437 Problems . 445 7.3 Viscoelastic Fluid and Flow . 447 7.3.1 Linear Viscoelastic Rheological Equations . 448 7.3.2 Linear and Nonlinear Viscoelastic Models . 456 7.3.3 Viscoelastic Models to Standard Flow and Application to Some Engineering Flow Problems . 465 7.3.3.1 UCM. CRM and Giesekus Equations . 465 7.3.3.2 Unidirectional Basic Flow Problems . 472 Exercise . 478 Problems . 489 Nomenclature . 491 Bibliography . 493 xiv Contents 8. Magnetic Fluid and Flow . 497 8.1 Thermophysical Properties . 498 Exercise . 504 Problems . 506 8.2 Ferrohydrodynamic Equations . 507 Exercise . 516 Problems . 519 8.3 Basic Flows and Applications . 520 8.3.1 Generalized Bernoulli Equation . 521 8.3.2 Hydrostatics . 522 8.3.3 Thermoconvective Phenomena . 527 Exercise . 532 Problems . 537 Nomenclature . 538 Bibliography . 540 Appendix . 543 Index . 561
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spelling	Yamaguchi, Hiroshi Verfasser aut Engineering fluid mechanics by Hiroshi Yamaguchi Dordrecht [u.a.] Springer 2008 XIV, 573 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Fluid mechanics and its applications 85 Fluid mechanics Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Strömungsmechanik (DE-588)4077970-1 s DE-604 Fluid mechanics and its applications 85 (DE-604)BV035417894 85 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016413472&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Yamaguchi, Hiroshi Engineering fluid mechanics Fluid mechanics and its applications Fluid mechanics Strömungsmechanik (DE-588)4077970-1 gnd
subject_GND	(DE-588)4077970-1 (DE-588)4123623-3
title	Engineering fluid mechanics
title_auth	Engineering fluid mechanics
title_exact_search	Engineering fluid mechanics
title_exact_search_txtP	Engineering fluid mechanics
title_full	Engineering fluid mechanics by Hiroshi Yamaguchi
title_fullStr	Engineering fluid mechanics by Hiroshi Yamaguchi
title_full_unstemmed	Engineering fluid mechanics by Hiroshi Yamaguchi
title_short	Engineering fluid mechanics
title_sort	engineering fluid mechanics
topic	Fluid mechanics Strömungsmechanik (DE-588)4077970-1 gnd
topic_facet	Fluid mechanics Strömungsmechanik Lehrbuch
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