流体力学(英文)ppt课件
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Teaching Contents (2)
Part B (Total hours: 8) Fundamental
B1 Stream functions and potential functions, frictionless irrotational flow (4 ห้องสมุดไป่ตู้ours )
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References
E. John Finnemore,
Joseph B. Franzini. Fluid Mechanics with Engineering Applications. McGraw-Hill Higher Education, 10th Revised edition, 2001.10
and commercial softwares of CFD (2 hours)
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Teaching Contents (3)
Part A and Part B are the foundation of Fluid Mechanics, Part C is the extended contents and refer to some practical problems. This course also pays much attention to the prevalence of modern fluid mechanics, for example, the introduction to the theory of turbulence boundary layer and the sketch of computational fluid dynamics (CFD) will help your further applications after your graduation.
(1 hour) (Required) E7 Self-designing experiments (1 hour) (Optional)
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Textbook
Frank M. White. Fluid
Mechanics. McGraw Hill Higher Education, 7th Revised edition, 2010.2
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Experimental Projects (1)
In-class (Required) (Total hours: 6)
E1 Hydrostatics (1 hour) E2 Velocity measurement with Pitot tube (1 hour) E3 Flow measurement with Venturi tube (1 hour) E4 Verification of Bernoulli equation (1 hour) E5 Reynolds experiment (1 hour) E6 Measurement of friction loss coefficient for circular pipe
Fluid Mechanics
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Preface
Total hours: 54 Classroom teaching hours: 48 Practice hours: 6
Contents
Teaching Contents —— In Classroom Experimental Projects —— In Teaching Lab
streamline (1 hour) (Required) E3 Measurement of local loss coefficient for circular pipe
flow (1 hour) (Required) E4 Demonstrating experiment about Siphon principle
B2 Boundary layer theory and flow past body (4 hours)
Part C (Total hours: 4) Extended contents
C1 Resaerch progress in Fluid Mechancis (1 hour) C2 Modern flow measurement technologies (1 hour) C3 Introduction to numerical simulation of turbulence flow
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Teaching Contents (1)
Part A (Total hours: 36) Fundamental
A1 Introduction (4 hours) A2 Fluid statics (6 hours ) A3 Fluid kinematics (6 hours) A4 Fluid dynamics ( 6 hours) A5 Laminar flow, turbulent flow and energy loss (8 hours) A6 Pipe flow and calculation of pipeline (4 hours) A7 Similarity theory and dimensional analysis (2 hours)
(1 hour) (Required) E5 Demonstrating experiment about flow around airfoil
and cylinder (1 hour) (Required) E6 Demonstrating experiment about vortex formation
flow (1 hour)
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Experimental Projects (2)
After-class (Total hours: 6-8)
E1 Liquid viscosity measurement (1 hour) (Optional) E2 Demonstrating experiment about flow pattern and