Mohammad Kazem Moayyedi (PhD)
Department of Mechanical Engineering
University of Qom
|
Fluid Mechanics II |
Course Outline |
References |
Homeworks |
Quizzes: 10% Assignments: 10% Mid-Term Exam: 20% Final Exam: 60% Extra Individual Project or Studying: 10% + 100% |
Grading |
White, F M, “Fluid Mechanics”, Mc Graw-Hill. Munson, B R, Young, D F, and Okiishi, T H, “Fundamentals of Fluid Mechanics”, John Wiley & Sons. Fox, R W, and McDonald, A T, “Introduction to Fluid Mechanics”, John Wiley & Sons. Currie, I G, “Fundamental of Fluid Mechanics”, Marcel Dekker Inc. Van Dyke M., “An Album of Fluid Motion”, Stanford, Parabolic Press, 1982 |
1. Differential Equations of Fluid Flow Kinematics and Dynamics of Fluid, Conservation of Mass or Continuity Equation, Differential Form of Momentum and Navier-Stokes Equation, Some Laminar Flows 2. Ideal Fluid Flow Irrotational Flow Definition, Potential and Stream Functions, Uniform Flow, Source, Sink and Vortex Flows, Flow Due to Doublet, Bernoulli's Equation in Irrotational Flow Field, Pressure and Velocity Distribution of Irrotational Flow, Simple Forms of Irrotational Flow 3. Boundary Layer Flow Fluid Flow Regimes (Laminar or Turbulent), Shear Stress due to Viscosity, Boundary Layer Definition and Concepts, Boundary Layer on a Flat Plate: Blasius Solution, Turbulent Boundary Layer Flow, Separation of Flow, Two-Dimensional Jets 4. Friction, Lift and Drag Forces Friction Coefficient of Flat Plate, Friction Loss due to Skin Friction, Boundary Layer Characteristics, Pressure Loss, Drag Coefficient of Bodies and Effects of Different Parameters, Lift Coefficient of Different Bodies and Its Coefficients, Airfoil Theory, Drag Reduction of Bodies 5. Compressible Fluid Flow Ideal Gas Relationship, Mach Number and Speed of Sound, Categories of Compressible Flow, Adiabatic and Isentropic Flow, Isentropic Flow with Area Changes, The Normal Shock Waves, Compressible Duct Flow with Friction (Fanno Flow), Frictionless Duct Flow with Heat Transfer (Rayleigh Flow) 6. Open Channel Flow Sub Critical and Super Critical Flows, Uniform Flow in Channel, Best Hydraulic Cross Sections, Specific Energy: Critical Depth, Hydraulic Jump, Gradually Varied Flow 7. Introduction to Turbomachinery Method of Analysis 1D Flow in Turbo-machines, Radial, Axial and Mixed Pumps, Hydraulic Relations in Pumps, Turbine and Its Types, Applications of Turbines |