مجموعه کتاب [ مکانیک سیّالات ]

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در این تاپیک، کتاب های مهم و مرتبط با علم «مکانیک سیّالات» قرار داده می شود.

 

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کتاب مکانیک سیالات سنجل با کیفیت بالا

Cengel Fluid mechanics


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حل تمرین

download link

لینک پشتیبان :
Fluid Mechanics Fundamentals and Applications
Fluid Mechanics Fundamentals and Applications
solutions manual of Fluid Mechanics Cengel​

 

[eghbali66]

مكانيك سيالات استريتر+حل تمرين

​

Victor Streeter 3th edition Fluid Mechanic..22MB. DW Link
Victor Streeter 3th edition Fluid Mechanic.Solution Manaul ..20MB. DW Link
​

مكانيك سيالات فاكس + حل تمرين

FoX Introduction to Fluid Mechanics (8th). 36MB .DW Link
FoX Introduction to Fluid Mechanics (6th)...33MB .DW Link
FoX Introduction to Fluid Mechanics (Solutions_manual)...70MB.DW Link
​

مكانيك سيالات وايت + حل تمرين​

Frank M. White Fluid Mechanic ..26MB..DW Link
Frank M. White Fluid Mechanic (Solutions_manual)..47MB..DW Link

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امیدوارم بچه ها قبل از استفاده از حل تمرین روی سوالات فکر کنن بعدش از حل تمرین ها استفاده کنن...

 

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کتاب مکانیک سیالات مانسون و کتاب حل ضمیمه آن
(Fundamental of Fluid Mechanics - 5th Ed (R. Munson

book:
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Solution:
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لینک پشتیبان :
Edition:7
Fundamentals of fluid mechanics
Fundamentals of Fluid Mechanics

Edition:6
Fundamentals of fluid mechanics
Fundamentals of Fluid Mechanics
Fundamentals of Fluid Mechanics, 6th Edition​

 

[eghbali66]

کتاب مکانیک سیالات Bernard Stanfort Massey و حل آن
Mechanics of fluids
Bernard Stanfort Massey

Book
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Solution Manual
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​

 

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(Fluid Mechanics and Thermodynamics of Turbomachinery (S. L. Dixon

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لینک پشتیبان
Edition:4
Fluid mechanics and thermodynamics of turbomachinery
Fluid mechanics and thermodynamics of turbomachinery
Fluid Mechanics and Thermodynamics of Turbomachinery

Edition:5
Fluid Mechanics and Thermodynamics of Turbomachinery, Fifth Edition
Fluid Mechanics and Thermodynamics of Turbomachinery, Fifth Edition​

 

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(Introduction to Fluid Dynamics (G. K. Batchelor

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لینک پشتیبان
Introduction to Fluid Dynamics
و
[h=1]Introduction to Fluid Dynamics[/h]​

 

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(Viscous Fluid Flow (Tasos C. Papanastasiou
​

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لینک پشتیبان
Viscous Fluid Flow
Viscous Fluid Flow

OR
Viscous Fluid Flow
Viscous Fluid Flow



​

 

[eghbali66]

(Turbulence in Fluids-4th (M. Lesieur
​

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لینک پشتیبان
Turbulence in fluids
Turbulence in fluids
Turbulence in fluids

OR
Turbulence in fluids
Turbulence in fluids




​

 

[eghbali66]

(Non-Newtonian Flow In The Process Industries (R.P. Chhabra
​

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لینک پشتیبان
Non-Newtonian FLow in the Process Industries
Non-Newtonian FLow in the Process Industries

OR

Non-Newtonian FLow in the Process Industries
Non-Newtonian FLow in the Process Industries

​

 

[eghbali66]

(Mathematical Introduction to Fluid Mechanics (Alexandre Chorin

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لینک پشتیبان
A Mathematical Introduction to Fluid Mechanics
A Mathematical Introduction to Fluid Mechanics
A mathematical introduction to fluid mechanics
A Mathematical Introduction to Fluid Mechanics
A Mathematical Introduction to Fluid Mechanics

OR
[h=1]Mathematical introduction to fluid mechanics[/h]

​

 

[eghbali66]

(Introduction to Practical Fluid Flow (R.P. King

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لینک پشتیبان
Introduction to practical fluid flow
Introduction to Practical Fluid Flow

OR
Introduction to Practical Fluid Flow
Introduction to practical fluid flow




​

 

[eghbali66]

(Introduction to Fluid Mechanics (Y. Nakayama

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لینک پشتیبان
Introduction to Fluid Mechanics

Introduction to Fluid Mechanics
Introduction to Fluid Mechanics
Introduction to Fluid Mechanics
Introduction to Fluid Mechanics​

 

[eghbali66]

(Introduction to Critical Phenomena in Fluids (Eldred H. Chimowitz

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لینک پشتیبان
Introduction to Critical Phenomena in Fluids

[h=1]Introduction to Critical Phenomena in Fluids[/h]​

 

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(Fluid Structures Interactions (Michael P. Paidoussis

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​

 

[eghbali66]

و اما یه کتاب خیلی خوب. برای مطالعه این کتاب ریاضی خیلی قوی باید داشت. بسیار مناسب ، مخصوصاً برای جریان پتانسیل و مباحث پیشرفته در آن
(Fundamental Mechanics of Fluids (I.G. Currie

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لینک پشتیبان
Edition:3
Fundamental Mechanics Of Fluids Currie
fundamental mechanics of fluids
Fundamental mechanics of fluids

Edition:4
Fundamental Mechanics of Fluids, Fourth Edition

​

 

[eghbali66]

(Foundations of Fluid Mechanics (G. Gallavotti

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​

 

[eghbali66]

(Fluid Power Dynamics (R. Keith Mobley

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لینک پشتیبان
Fluid Power Dynamics
Fluid Power Dynamics
Fluid Power Dynamics
Fluid Power Dynamics

OR
Fluid Power Dynamics
Fluid Power Dynamics
Fluid Power Dynamics

​

 

[eghbali66]

(Fluid Mechanics-3rd Ed (P. Kundu, I.Cohen

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2nd Ed.
http://uploadboy.com/bsf2wvbv3668.html

لینک پشتیبان
Edition:5
Fluid mechanics
Fluid Mechanics Fifth Edition


​

 

[eghbali66]

(Fluid Mechanics with Problems and Solution and an Aerodynamics Laboratory (Egon Krause

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لینک پشتیبان
[h=1]Fluid Mechanics: With Problems and Solutions, and an Aerodynamic Laboratory[/h]

​

 

[eghbali66]

Fluid Mechanics for Engineers: A Graduate Textbook

Fluid Mechanics for Engineers: A Graduate Textbook

Fluid Mechanics for Engineers: A Graduate Textbook
(Meinhard T. Schebeiri)

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لینک پشتیبان
Fluid Mechanics for Engineers: A Graduate Textbook
Fluid Mechanics for Engineers: A Graduate Textbook

OR
Fluid Mechanics for Engineers: A Graduate Textbook


​

The contents of this book covers the material required in the Fluid Mechanics Graduate Core Course (MEEN-621) and in Advanced Fluid Mechanics, a Ph. D-level elective course (MEEN-622), both of which I have been teaching at Texas A&M University for the past two decades. While there are numerous undergraduate fluid mechanics texts on the market for engineering students and instructors to choose from, there are only limited texts that comprehensively address the particular needs of graduate engineering fluid mechanics courses. To complement the lecture materials, the instructors more often recommend several texts, each of which treats special topics of fluid mechanics. This circumstance and the need to have a textbook that covers the materials needed in the above courses gave the impetus to provide the graduate engineering community with a coherent textbook that comprehensively addresses their needs for an advanced fluid mechanics text. Although this text book is primarily aimed at mechanical engineering students, it is equally suitable for aerospace engineering, civil engineering, other engineering disciplines, and especially those practicing professionals who perform CFD-simulation on a routine basis and would like to know more about the underlying physics of the commercial codes they use. Furthermore, it is suitable for self study, provided that the reader has a sufficient knowledge of calculus and differential equations. In the past, because of the lack of advanced computational capability, the subject of fluid mechanics was artificially subdivided into inviscid, viscous (laminar, turbulent), incompressible, compressible, subsonic, supersonic and hypersonic flows.
Table of contents : 
Front Matter....Pages -
Introduction....Pages 1-10
Vector and Tensor Analysis, Applications to Fluid Mechanics....Pages 11-29
Kinematics of Fluid Motion....Pages 31-49
Differential Balances in Fluid Mechanics....Pages 51-80
Integral Balances in Fluid Mechanics....Pages 81-138
Inviscid Potential Flows....Pages 139-199
Viscous Laminar Flow....Pages 201-232
Laminar-Turbulent Transition....Pages 233-269
Turbulent Flow, Modeling....Pages 271-326
Free Turbulent Flow....Pages 327-356
Boundary Layer Theory....Pages 357-421
Compressible Flow....Pages 423-473
Back Matter....Pages -

 

[eghbali66]

(Fluid Mechanics and Machinery-2nd Ed (C.P. Kothandaraman
​

C.P. Kothandaraman, R. Rudramoorthy
2009

​

Provides guidance in building of physical and mathematical models. This work presents numerical examples for each of the equations derived.
Table of contents : 
Preface to the Second Edition ......Page 6
Preface to the First Edition ......Page 8
Contents ......Page 10
1.0 Introduction ......Page 20
1.2 Compressible and Incompressible Fluids ......Page 21
1.3 Dimensions and Units ......Page 22
1.5 Definition of Some Common Terminology ......Page 23
1.6 Vapour and Gas ......Page 24
1.7 Characteristic Equation for Gases ......Page 25
1.8 Viscosity ......Page 26
1.8.1 Newtonian and Non Newtonian Fluids ......Page 29
1.8.4 Significance of Kinematic Viscosity ......Page 30
1.8.5 Measurement of Viscosity of Fluids ......Page 31
1.9.1 Viscous Torque and Power—Rotating Shafts ......Page 32
1.9.2 Viscous Torque—Disk Rotating Over a Parallel Plate ......Page 33
1.9.3 Viscous Torque—Cone in a Conical Support ......Page 35
1.10.1 Surface Tension Effect on Solid-Liquid Interface ......Page 36
1.10.2 Capillary Rise or Depression ......Page 37
1.10.3 Pressure Difference Caused by Surface Tension on a Doubly Curved Surface ......Page 38
1.10.4 Pressure Inside a Droplet and a Free Jet ......Page 39
1.11 Compressibility and Bulk Modulus ......Page 40
1.11.1 Expressions for the Compressibility of Gases ......Page 41
1.12.1 Partial Pressure ......Page 42
Solved Problems ......Page 43
Objective Questions ......Page 52
Review Questions ......Page 57
Exercise Problems ......Page 58
2.1 Pressure ......Page 61
2.2 Pressure Measurement ......Page 62
2.3 Pascal's Law ......Page 64
2.4 Pressure Variation in Static Fluid (Hydrostatic Law) ......Page 65
2.4.1 Pressure Variation in Fluid with Constant Density ......Page 66
2.4.2 Pressure Variation in Fluid with Varying Density ......Page 67
2.5 Manometers ......Page 68
2.5.1 Micromanometer ......Page 70
2.6 Distribution of Pressure in Static Fluids Subjected to Acceleration ......Page 72
2.6.1 Free Surface of Accelerating Fluid ......Page 73
2.6.2 Pressure Distribution in Accelerating Fluids along Horizontal Direction ......Page 74
2.7 Forced Vortex ......Page 77
Solved Problems ......Page 79
Objective Questions ......Page 90
Exercise Problems ......Page 93
3.0 Introduction ......Page 99
3.1 Centroid and Moment of Inertia of Areas ......Page 100
3.2 Force on an Arbitrarily Shaped Plate Immersed in a Liquid ......Page 102
3.3 Centre of Pressure for an Immersed Inclined Plane ......Page 103
3.3.1 Centre of Pressure for Immersed Vertical Planes ......Page 105
3.4 Component of Forces on Immersed Inclined Rectangles ......Page 106
3.5 Forces on Curved Surfaces ......Page 108
3.6 Hydrostatic Forces in Layered Fluids ......Page 111
Solved Problems ......Page 112
Review Questions ......Page 130
Objective Questions ......Page 131
Exercise Problems ......Page 134
4.1 Buoyancy Force ......Page 138
4.2 Stability of Submerged and Floating Bodies ......Page 140
4.3 Conditions for the Stability of Floating Bodies ......Page 142
4.4 Metacentric Height ......Page 143
Solved Problems ......Page 144
Review Questions ......Page 155
Objective Questions ......Page 156
Exercise Problems ......Page 158
5.0 Introduction ......Page 161
5.3 Flow of Ideal / Inviscid and Real Fluids ......Page 162
5.6 Laminar and Turbulent Flow......Page 163
5.8 Velocity and Acceleration Components......Page 164
5.9 Continuity Equation for Flow-Cartesian Co-Ordinates......Page 165
5.11 Concepts of Circulation and Vorticity......Page 167
5.12 Stream Lines, Stream Tube, Path Lines, Streak Lines and Time Lines......Page 168
5.13 Concept of Stream Line......Page 169
5.14 Concept of Stream Function......Page 170
5.15 Potential Function......Page 172
5.17.1 Source Flow......Page 173
5.17.3 Irrotational Vortex of Strength K......Page 174
5.17.4 Doublet of Strength A......Page 175
5.18.2 Source and Sink of Equal Strength with Separation of 2a Along x-Axis ......Page 176
5.18.7 Source and Vortex (Spiral Vortex Counterclockwise)......Page 177
5.19 Concept of Flow Net......Page 178
Solved Problems......Page 179
Objective Questions......Page 192
Exercise Broblems......Page 197
6.1 Forms of Energy Encountered in Fluid Flow......Page 199
6.1.2 Potential Energy......Page 200
6.1.4 Internal Energy......Page 201
6.3 Euler's Equation of Motion For Flow Along A Stream Line......Page 202
6.4 Bernoulli Equation for Fluid Flow......Page 203
6.5 Energy Line and Hydraulic Gradient Line......Page 206
6.6 Volume Flow Through A Venturimeter......Page 207
6.7 Euler and Bernoulli Equation for Flow With Friction......Page 209
6.8 Concept and Measurement of Dynamic, Static and Total Head......Page 211
6.8.1 Pitot Tube......Page 212
Solved Problems......Page 213
Objective Questions......Page 232
Exercise Problems......Page 234
7.0 Parameters Involved in the Study of Flow Through Closed Conduits......Page 238
7.2 Boundary Layer Development Over A Flat Plate......Page 239
7.3 Development of Boundary Layer in Closed Conduits (Pipes)......Page 240
7.4 Features of Laminar and Turbulent Flows ......Page 241
7.6 Concept of "Hydraulic Diameter": (Dh) ......Page 242
7.7 Velocity Variation With Radius for Fully Developed Laminar Flow in Pipes......Page 243
7.8 Darcy-Weisbach Equation for Calculating Pressure Drop......Page 245
7.9 Hagen-Poiseuille Equation for Friction Drop......Page 247
7.10 Significance of Reynolds Number in Pipe Flow......Page 248
7.11 Velocity Distribition and Friction Factor for Turbulent Flow in Pipes......Page 249
7.12 Minor Losses in Pipe Flow......Page 250
7.13 Expression for the Loss of Head at Sudden Expansion in Pipe Flow......Page 251
7.15 Energy Line and Hydraulic Grade Line in Conduit Flow......Page 253
7.17 Concept of Equivalent Pipe or Equivalent Length......Page 254
7.18.1 Condition for Maximum Power Transmission......Page 257
7.19 Network of Pipes......Page 258
7.19.1 Pipes in Series-Electrical Analogy......Page 259
7.19.2 Pipes in Parallel......Page 260
7.19.3 Branching Pipes......Page 262
Solved Problems......Page 264
Objective Questions......Page 275
Exercise Problems ......Page 278
8.0 Introduction......Page 282
8.1 Methods of Determination of Dimensionless Groups......Page 283
8.3.1 Determination of π Groups......Page 284
8.5 Correlation of Experimental Data......Page 289
8.5.2 Problems with Two Pi Terms ......Page 290
Solved Problems......Page 292
Obejective Questions......Page 310
Exercise Problems ......Page 312
9.1 Model and Prototype......Page 315
9.2.2 Dynamic Similarity......Page 316
9.3.1 Flow through Closed Conduits ......Page 317
9.3.2 Flow Around Immersed Bodies......Page 318
9.3.3 Flow with Free Surface......Page 319
9.3.4 Models for Turbomachinery......Page 320
9.4 Nondimensionalising Governing Defferential Equations......Page 321
Solved Problems......Page 322
Objective Questions......Page 334
Exercise Problems......Page 336
10.1 Boundary Layer Thickness......Page 340
10.1.2 Continuity Equation......Page 341
10.1.3 Momentum Equation......Page 343
10.1.4 Solution for Velocity Profile......Page 344
10.1.5 Integral Method......Page 346
10.1.6 Displacement Thickness......Page 349
10.1.7 Momentum Thickness......Page 350
10.2 Turbulent Flow......Page 351
10.3.1 Flow Around Immersed Bodies – Drag and Lift......Page 353
10.3.2 Drag Force and Coefficient of Drag......Page 354
10.3.3 Pressure Drag......Page 355
10.3.4 Flow Over Spheres and Cylinders......Page 356
10.3.5 Lift and Coefficient of Lift......Page 357
10.3.6 Rotating Sphere and Cylinder......Page 358
Solved Problems......Page 360
Objective Questions......Page 372
Exercise Problems......Page 375
11.2 Velocity Measurements......Page 378
11.2.1 Pitot Tube......Page 379
11.2.3 Hot Wire Anemometer......Page 381
11.2.4 Laser Doppler Anemometer......Page 382
11.3.2 Turbine Type Flowmeter......Page 383
11.3.3 Venturi, Nozzle and Orifice Meters......Page 384
11.4.1 Discharge Measurement Using Orifices......Page 386
11.4.2 Flow Measurements in Open Channels......Page 387
Solved Problems......Page 390
Review Questions......Page 398
Objective Questions......Page 399
Exercise Problems......Page 400
12.1.1 Characteristics of Open Channels......Page 402
12.2 Uniform Flow: (Also Called Flow at Normal Depth)......Page 403
12.3 Chezy's Equation for Discharge......Page 404
12.4.1 Bazin’s Equation for Chezy’s Constant......Page 405
12.4.2 Kutter’s Equation for Chezy’s Constant C......Page 406
12.4.3 Manning’s Equation for C......Page 407
12.5 Economical Cross-Section for Open Channels ......Page 409
12.6.1 Velocity of Wave Propagation in Open Surface Flow......Page 414
12.6.3 Energy Equation for Steady Flow and Specific Energy......Page 416
12.6.4 Non Dimensional Representation of Specific Energy Curve......Page 419
12.7.1 Flow Over a Bump......Page 423
12.7.2 Flow Through Sluice Gate, from Stagnant Condition......Page 425
12.7.3 Flow Under a Sluice Gate in a Channel......Page 426
12.8 Flow With Gradually Varying Depth......Page 428
12.8.1 Classification of Surface Variations......Page 429
12.9 The Hydraulic Jump (Rapidly Varied Flow)......Page 430
12.10 Flow Over Broad Crested Weir......Page 433
12.11 Effect of Lateral Contraction......Page 434
Solved Problems......Page 435
Objective Questions......Page 449
Exercise Problems......Page 451
13.1 Impulse Momentum Principle......Page 454
13.1.1 Forces Exerted on Pressure Conduits......Page 455
13.1.2 Force Exerted on a Stationary Vane or Blade......Page 457
13.3 Force on a Moving Vane or Blade......Page 458
13.4 Torque on Rotating Wheel......Page 462
Solved Problems......Page 464
Exercise Questions......Page 469
14.1 Hydraulic Power Plant......Page 471
14.3 Similitude and Model Testing......Page 472
14.3.1 Model and Prototype......Page 476
14.3.2 Unit Quantities......Page 478
14.4 Turbine Efficiencies ......Page 479
14.5 Euler Turbine Equation......Page 480
14.5.1 Components of Power Produced......Page 481
14.6 Pelton Turbine......Page 483
14.6.1 Power Development......Page 485
14.6.2 Torque and Power and Efficiency Variation with Speed Ratio......Page 489
14.7 Reaction Turbines......Page 491
14.7.1 Francis Turbines......Page 492
14.8 Axial Flow Turbines......Page 499
14.9 Cavitation in Hydraulic Machines......Page 501
14.9 Governing of Hydraulic Turbines......Page 503
Worked Examples......Page 505
Review Questions......Page 532
Objective Questions......Page 533
Exercise Problems......Page 534
15.1 Centrifugal Pumps......Page 538
15.1.2 Classification......Page 540
15.2 Pressure Developed By the Impeller......Page 541
15.3 Energy Transfer by Impeller......Page 542
15.3.3 Losses in Centrifugal Pumps......Page 544
15.3.4 Effect of Outlet Blade Angle......Page 545
15.4 Pump Characteristics......Page 546
15.5 Operation of Pumps in Series and Parallel......Page 548
15.6 Specific Speed and Significance......Page 550
15.7 Cavitation......Page 551
15.8 Axial Flow Pump......Page 552
15.9.1 Fluid Coupling......Page 554
15.9.2 Torque Converter......Page 555
Solved Examples......Page 557
Objective Questions......Page 575
Exercise Problems......Page 576
16.2 Description and Working......Page 579
16.3 Flow Rate and Power......Page 581
16.3.1 Slip......Page 582
16.4 Indicator Diagram......Page 583
16.4.1 Acceleration Head......Page 584
16.4.2 Minimum Speed of Rotation of Crank......Page 588
16.4.3 Friction Head......Page 589
16.5 Air Vessels......Page 591
16.5.1 Flow into and out of Air vessel......Page 594
16.6 Rotary Positive Displacement Pumps......Page 595
16.6.3 Vane Pump......Page 596
Solved Problems......Page 597
Exercise Problems......Page 606
Appendix......Page 609
Index ......Page 614

 

[eghbali66]

Prandtl's Essentials of Fluid Mechanics

Prandtl's Essentials of Fluid Mechanics

Prandtl's Essentials of Fluid Mechanics, Herbert Oertel
Herbert Oertel (auth.), Herbert Oertel (eds.)
Applied Mathematical Sciences 158
Springer-Verlag New York
2010
Edition 3

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لینک پشتیبان
Edition:3
Prandtl-Essentials of Fluid Mechanics
Prandtl-Essentials of Fluid Mechanics
Prandtl-Essentials of Fluid Mechanics

OR
Prandtl-Essentials of Fluid Mechanics

Ludwig Prandtl, with his fundamental contributions to hydrodynamics, aerodynamics and gasdynamics, greatly influenced the development of fluid mechanics as a whole and it was his pioneering research in the first half of the 20th century that founded modern fluid mechanics. His book `Fuhrer durch die Stromungslehre’ or `Essentials of Fluid Mechanics’ appeared in 1942. Even today it is considered one of the most important books in the area.






It is based on the 12th German edition with additional material included. All Chapters have been revised and extended, and there are new chapters on fluid mechanical instabilities and turbulence, microflows and biofluid mechanics. 




Essentials of Fluid Mechanics is aimed at science and engineering students and researchers wishing to obtain an overview of the different branches of fluid mechanics. The book is extensively illustrated throughout and includes problems to aid learning in many chapters. 








Reviews of previous edition:






The range of topics considered in this volume is impressive and physical ideas and principles described and illustrated by a wide range of examples will make this book interesting to students and specialists in various fields.


--Contemporary Physics


Table of contents : 
Front Matter....Pages i-xii
Introduction....Pages 1-13
Properties of Liquids and Gases....Pages 15-42
Kinematics of Fluid Flow....Pages 43-58
Dynamics of Fluid Flow....Pages 59-263
Fundamental Equations of Fluid Mechanics....Pages 265-343
Instabilities and Turbulent Flows....Pages 345-408
Convective Heat and Mass Transfer....Pages 409-453
Multiphase Flows....Pages 455-521
Reactive Flows....Pages 523-591
Flows in the Atmosphere and in the Ocean....Pages 593-638
Microflows....Pages 639-683
Biofluid Mechanics....Pages 685-752
Back Matter....Pages 753-795

​

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[eghbali66]

Fluid Flow Measurement, A Practical Guide to Accurate Flow Measurement

Fluid Flow Measurement, A Practical Guide to Accurate Flow Measurement

(Fluid Flow Measurement, A Practical Guide to Accurate Flow Measurement (E.L. Upp
Paul J. LaNasa and E. Loy Upp (Auth.)
Butterworth-Heinemann
2014






لینک پشتیبان
Fluid Flow Measurement: A Practical Guide to Accurate Flow Measurement, 2nd Edition
Fluid flow measurement: a practical guide to accurate flow measurement
Edition:3
Fluid Flow Measurement. A Practical Guide to Accurate Flow Measurement

OR
Fluid flow measurement: a practical guide to accurate flow measurement
Fluid Flow Measurement. A Practical Guide to Accurate Flow Measurement Edition:3

​

There is a tendency to make flow measurement a highly theoretical and technical subject but what most influences quality measurement is the practical application of meters, metering principles, and metering equipment and the use of quality equipment that can continue to function through the years with proper maintenance have the most influence in obtaining quality measurement. This guide provides a review of basic laws and principles, an overview of physical characteristics and behavior of gases and liquids, and a look at the dynamics of flow. The authors examine applications of specific meters, readout and related devices, and proving systems. Practical guidelines for the meter in use, condition of the fluid, details of the entire metering system, installation and operation, and the timing and quality of maintenance are also included.


This book is dedicated to condensing and sharing the authors' extensive experience in solving flow measurement problems with design engineers, operating personnel (from top supervisors to the newest testers), academically-based engineers, engineers of the manufacturers of flow meter equipment, worldwide practitioners, theorists, and people just getting into the business.










The authors' many years of experience are brought to bear in a thorough review of fluid flow measurement methods and applications.
Avoids theory and focuses on presentation of practical data for the novice and veteran engineer.
Useful for a wide range of engineers and technicians (as well as students) in a wide range of industries and applications
Table of contents : 
Content: 
Front-matter, Pages i,iii
Copyright, Page iv
Dedication, Page ix
Preface, Pages xi-xii
Memorial, Pages xiii-xiv
1 - Introduction, Pages 1-17
2 - Basic Flow Measurement Laws, Pages 19-29
3 - Types of Fluid Flow Measurement, Pages 31-44
4 - Basic Reference Standards, Pages 45-67
5 - From Theory to Practice, Pages 69-87
6 - Fluids, Pages 89-106
7 - Flow, Pages 107-116
8 - Operations, Pages 117-138
9 - Maintenance of Meter Equipment, Pages 139-157
10 - Measurement and Meters, Pages 159-165
11 - Differential (Head) Meters, Pages 167-186
12 - Linear and Special Meters, Pages 187-215
13 - Readouts and Related Devices, Pages 217-229
14 - Proving Systems, Pages 231-240
15 - “Lost and Unaccounted for” Fluids, Pages 241-250
16 - Measurement Data Analysis, Pages 251-261
17 - Auditing, Pages 263-273
Index, Pages 275-282

 

[eghbali66]

Fluid Dynamics Theory Computatio and Numerical Simulation

Fluid Dynamics Theory Computatio and Numerical Simulation

(Fluid Dynamics Theory Computatio and Numerical Simulation (C. Pozrikidis

لینک پشتیبان
Fluid dynamics: theory, computation, and numerical simulation
Fluid Dynamics: Theory, Computation, and Numerical Simulation
Fluid Dynamics: Theory, Computation, and Numerical Simulation



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Fluid Dynamics: Theory, Computation, and Numerical Simulation is the only available book that extends the classical field of fluid dynamics into the realm of scientific computing in a way that is both comprehensive and accessible to the beginner. The theory of fluid dynamics, and the implementation of solution procedures into numerical algorithms, are discussed hand-in-hand and with reference to computer programming. This book is an accessible introduction to theoretical and computational fluid dynamics (CFD), written from a modern perspective that unifies theory and numerical practice.


There are several additions and subject expansions in the Second Edition of Fluid Dynamics, including new Matlab and FORTRAN codes. Two distinguishing features of the discourse are: solution procedures and algorithms are developed immediately after problem formulations are presented, and numerical methods are introduced on a need-to-know basis and in increasing order of difficulty. Matlab codes are presented and discussed for a broad range of topics; from interfacial shapes in hydrostatics, to vortex dynamics, to Stokes flow, to turbulent flow.


A supplement to this book is the FORTRAN software library FDLIB, freely available through the Internet, whose programs explicitly illustrate how computational algorithms translate into computer code instructions. The codes of FDLIB range from introductory to advanced, and the problems considered span a broad range of applications; from laminar channel flows, to vortex flows, to flows in aerodynamics. Selected computer problems at the end of each section ask the student to run the programs for various flow conditions, and thereby study the effect of the various parameters determining each flow.


This text is a must for practitioners and students in all fields of engineering, computational physics, scientific computing, and applied mathematics. It can be used as a text in both undergraduate and graduate courses in fluid mechanics, aerodynamics, and computational fluid dynamics. The audience includes not only advanced undergraduate and entry-level graduate students, but also a broad class of scientists and engineers with a general interest in scientific computing.


Table of contents : 
Front Matter....Pages 1-16
Introduction to Kinematics....Pages 1-53
More on Kinematics....Pages 54-114
Flow Computation based on Kinematics....Pages 115-162
Forces and Stresses....Pages 163-217
Hydrostatics....Pages 218-307
Equation of Motion and Vorticity Transport....Pages 308-359
Channel, Tube, and Film Flow....Pages 360-423
Finite-Difference Methods....Pages 424-493
Low Reynolds Number Flow....Pages 494-561
High Reynolds Number Flow....Pages 562-630
Vortex Motion....Pages 631-679
Aerodynamics....Pages 680-727
Back Matter....Pages 1-46

 

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Engineering Fluid Mechanics Student- Solutions Manual

Engineering Fluid Mechanics Student- Solutions Manual

دانلود حل المسائل مکانیک سیالات دانشگاه واشنگتن
Engineering Fluid Mechanics Student- Solutions Manual-Washington University

 

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Compressible Fluid Dynamics

Compressible Fluid Dynamics

(Compressible Fluid Dynamics (A. Thompson
Thompson Philip A.
1988
(با فرمت djvu)

لینک پشتیبان
Compressible-fluid dynamics

OR
Compressible-fluid dynamics
Compressible-fluid dynamics



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Elementary Fluid Mechanics

Elementary Fluid Mechanics

(Elementary Fluid Mechanics (Tsutomu Kambe
World Scientific Publishing
2007

http://uploadboy.com/lbt0xj8llck4.html

لینک پشتیبان
Elementary fluid mechanics
Elementary fluid mechanics
Elementary Fluid Mechanics

OR
Elementary Fluid Mechanics
Elementary fluid mechanics
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This textbook describes the fundamental "physical" aspects of fluid flows for beginners of fluid mechanics in physics, mathematics and engineering, from the point of view of modern physics.It also emphasizes the dynamical aspects of fluid motions rather than the static aspects, illustrating vortex motions, waves, geophysical flows, chaos and turbulence. Beginning with the fundamental concepts of the nature of flows and the properties of fluids, the book presents fundamental conservation equations of mass, momentum and energy, and the equations of motion for both inviscid and viscous fluids.In addition to the fundamentals, this book also covers water waves and sound waves, vortex motions, geophysical flows, nonlinear instability, chaos, and turbulence. Furthermore, it includes the chapters on superfluids and the gauge theory of fluid flows.The material in the book emerged from the lecture notes for an intensive course on Elementary Fluid Mechanics for both undergraduate and postgraduate students of theoretical physics given in 2003 and 2004 at the Nankai Institute of Mathematics (Tianjin) in China. Hence, each chapter may be presented separately as a single lecture​

 

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Computational Flow Modeling for Chemical Reactor Engineering

Computational Flow Modeling for Chemical Reactor Engineering

(Computational Flow Modeling for Chemical Reactor Engineering (Vivek V. Ranade

http://uploadboy.com/xuw6wlakr6qo.html

لینک پشتیبان
Computational Flow Modeling for Chemical Reactor Engineering
Computational Flow Modeling for Chemical Reactor Engineering
Computational Flow Modeling for Chemical Reactor Engineering

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Boundary Layer Theory

Boundary Layer Theory

کتاب معروف لایه مرزی شلیختینگ
(Boundary Layer Theory (Hermann Schlichting
McGraw-Hill series in mechanical engineering
1979
(با فرمت djvu)

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This text is the translation and revision of Schlichting's classic text in boundary layer theory. The main areas covered are laws of motion for a viscous fluid, laminar boundary layers, transition and turbulence, and turbulent boundary layers
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لینک پشتیبان :
Boundary-layer theory​