كلية الهندسة - جامعة عين شمس, الرئيسية

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Fluid Mechanics

What Will Learn?

  • Course Aims
    By the end of the course, the students will be able to: ● Use the governing equation of the fluid statics to analyze the application of manometry and hydrostatic forces acting on different submerged surfaces. ● Apply control volume analysis using the concepts of continuity, energy, and momentum principles to fluid flow problems. ● Recognize the various aspects of laminar and turbulent flows in terms of shear stresses, velocity distributions, major and minor losses in pipe flows. In addition to identify the centrifugal pump characteristics and series and parallel pump connection. ● Apply dimensional analysis and similarity concept to any engineering application. ● Demonstrate understanding of the principle and application of Mach number, stagnation properties, nozzles, and shock waves. ● Apply differential analysis on fluid flow system using Navier-Stokes equation. ● Demonstrate understanding of the physics of flow over the immersed body, boundary layer theory, drag forces, lift forces, pressure gradients, and their effects on boundary layer separation and wake.
  • Course Goals
  • Quality Education
  • Industry, Innovation and Infrastructure
  • Responsible Consumption and Production

Requirements

PHM213s

Description

  • English Description

    Properties of Fluids, Density, Pressure, Pressure Measurement, Forces on Submerged Bodies, Viscosity, Viscous Boundary Layers, Continuum Hypothesis, Streamlines, Velocity and Acceleration, Continuity Equation, Classification of Flow Fields: Pipe Flow, Jet Flow, Wake Flow, Boundary Layer Flow, Flow in Closed Conduits, Bernoulli’s Equation, Major and Minor Losses in Pipes, Laminar and Turbulent Flows, Similitude and Dimensional Analysis, Lagrangian and Eulerian Coordinates, Transport Theorem on a Control Volume, Navier-Stokes Equation, Flow around Immersed Bodies, Drag and Lift Forces, Compressible Flow, Stagnation Properties, Mach Number and Sonic Velocity, Equations of Gas Dynamics, Flow through Nozzles, Shock Waves.
  • Arabic Description

    Properties of Fluids, Density, Pressure, Pressure Measurement, Forces on Submerged Bodies, Viscosity, Viscous Boundary Layers, Continuum Hypothesis, Streamlines, Velocity and Acceleration, Continuity Equation, Classification of Flow Fields: Pipe Flow, Jet Flow, Wake Flow, Boundary Layer Flow, Flow in Closed Conduits, Bernoulli’s Equation, Major and Minor Losses in Pipes, Laminar and Turbulent Flows, Similitude and Dimensional Analysis, Lagrangian and Eulerian Coordinates, Transport Theorem on a Control Volume, Navier-Stokes Equation, Flow around Immersed Bodies, Drag and Lift Forces, Compressible Flow, Stagnation Properties, Mach Number and Sonic Velocity, Equations of Gas Dynamics, Flow through Nozzles, Shock Waves.
  • قسم
    هندسة القوى الميكانيكية
  • الساعات المعتمدة
    4
  • الدرجات
    الإجمالي ( 100 ) = نصف العام (25) + tr.Student Activities (20 = tr.Industry 5% , tr.Project 5% , tr.Self_learning 0% , tr.Seminar 10% ) + tr.Oral/Practical (15) + درجة الامتحان (40)
  • الساعات
    ساعات المحاضرة: 3, ساعات التعليم: 2, ساعات المعمل: 1
  • Required SWL
    150
  • Equivalent ECTS
    6
  • ● White, Frank M., "Fluid Mechanics", McGraw Hill 9th international edition.
  • ● Munson, Young, Okiishi," Fundamentals of Fluid Mechanics", 8th edition, John Wiley & Sons, Inc.
  • ● Yunus A. çengel & John Cimbala, "Fluid Mechanics Fundamentals and Applications" Edition in SI units.
  • ● Streeter, V.L., Wylie, E.B. and Bedford ,K.W.," Fluid Mechanics "Ninth edition, McGraw Hill.
  • ● Theoretical Fluid Mechanics, DOI 10.1088/978-0-7503-1554-8 - EKB - White, Frank M., Fluid Mechanics, McGraw Hill 9th international edition.