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S.hosien Mousavizadegan
  Courses 

 Marine Engineering (I)(FALL_2017)

Aims:

An introduction to the main propulsion systems of ships

Syllabus:

  • Introduction - Marine engineering
  • Main propulsion design procedures
  • Introducing different types of engines and mechanisms using in ships propulsion
  • Diesel Engines and matching and selection of them for ships
  • Gas turbine and the application of it in ship propulsion
  • Auxiliary systems in main propulsion system

Text Book:

  • R. L. Harrington, Marine Engineering, The society of naval architectures and marine engineering, 601 Pavonia Ave. , Jersey city, N.J., 1992


 Marine Hydrostatics(FALL_2017)

Aims:

To be familair with the ship Geometry, ship hydrostatic calculations, hydrostatic curves, ship intact stability and ship damage stability

Syllabus:

    Text Book:

    • Principles of Naval Architecutre, Vol. 1, SNAME, E. Lewis, 1988
    • The principles of naval architecture. C. S. Moore, 2010


     Computational Fluid Dynamics (CFD)(SPRING_2017)

    Aims:

    Numerical modeling of fluid flow

    Syllabus:

    • Motion Equations in Differential Forms
    • Partial differential equations
    • Finite Difference Methods, FDM
    • Finite Volume Methods
    • Boundary Element Method, BEM (Panel Method)
    • Finite Element Methods

    Text Book:

    • Fundamental of computational fluid dynamics (2001), By: H. Lomax, T. H. Pulliam, & D. W. Zingg, Springer
    • Computational fluid dynamics (2002), By: T. J. Chung, Cambridge University press
    • Computational techniques for fluid dynamics (1987), By: C. A. J. Fletcher, Springer-Verlag
    • Introduction to fluid dynamics (2005), By: A. W. date, Cambridge University press
    • Computational methods for fluid dynamics, By: J. H. Freziger & M. peric
    • An introduction to computational fluid dynamics, By: Versteeg & Malalasekera
    • Computational fluid dynamics for engineers, By: K. A. Hoffmann & S. T. Chiang


     Fluid Mechanics (I)(SPRING_2017)

    Aims:

    Study of fluid behavior in static and dynamic conditions and the fluid flow governing equations

    Syllabus:

    • introduction to the course program and syllabus, definition of fluid, the application of the fluid mechanics, fluid as a continuum , dimensions and units
    • Fluid flow field, the thermodynamic properties of fluids, viscosity, surface tension, the vapor pressure and cavitation
    • Basic flow analysis techniques, Flow patterns: streamlines, pathlines and streaklines, Pressure and pressure gradient, The basic equation of fluid statics
    • Absolute and Gage pressure, vacuum pressure, Hydrostatic pressure distributions in liquids and gases, Manometers, The hydrostatic forces on plane surfaces
    • The hydrostatic forces on curved surfaces, The hydrostatic forces in layered fluids
    • Buoyancy and Stability, Fluids in rigid-body motions
    • Basic physical laws of fluid flow, Systems and control volumes, The Reynolds transport theorem, Conservation of mass
    • The Linear momentum equation, Midterm Exam: Feb. 12, 2011
    • The angular momentum equation
    • The energy equation, The Bernoulli equation
    • Dimensional analysis and similitude, Dimensional homogeneity, The Pi theorem, Dimensionless parameters
    • Modeling of fluid flow, Geometric, kinematic and dynamic similarity, The Viscous flow in ducts, Laminar and turbulent flows, Internal and external flow, Head loss and the friction factor
    • Laminar fully developed flow in pipes, Turbulent pipe flow
    • Various types of pipe flow problems, Minor losses in pipe systems
    • The flow in non-circular ducts, Fluid flow measurement

    Text Book:

    • Fluid Mechanics, By: Frank M. White


     Marine Hydrodynamics (I)(SPRING_2017)

    Aims:

    Investigation on the interaction of moving ship with the sea environment

    Syllabus:

    • Introduction - Marine Hydrodynamics
    • Fundamental of fluid flow equations
    • Motion equations of a marine vehicle
    • An introduction to the sea environment , waves and linear waves theories
    • Ship resistance
    • Ships propulsion

    Text Book:

    • Edward V. Lewis, Principles of naval architecture, vol. II - motion in waves and controllability,The society of Naval Architecture and Marine Engineering”, SNAME, 601 Pavonia Avenue,Jersey City, NJ, USA, 1989.
    • S. A. Harvald, Resistance and Propulsion of ships, John Wiley and Sons, New york, 1983
    • M. Rahman, Warer waves: Relating modern theory to advanced engineering applications, Oxford university press, Oxford, 1994


     Dynamics of Marine Vehicles(FALL_2016)

    Aims:

    Study of the behavior of marine vehicle in seaway

    Syllabus:

      Text Book:




       Fluid Mechanics (I)(FALL_2016)

      Aims:

      Study of fluid behavior in static and dynamic conditions and the fluid flow governing equations

      Syllabus:

      • introduction to the course program and syllabus, definition of fluid, the application of the fluid mechanics, fluid as a continuum , dimensions and units
      • Fluid flow field, the thermodynamic properties of fluids, viscosity, surface tension, the vapor pressure and cavitation
      • Basic flow analysis techniques, Flow patterns: streamlines, pathlines and streaklines, Pressure and pressure gradient, The basic equation of fluid statics
      • Absolute and Gage pressure, vacuum pressure, Hydrostatic pressure distributions in liquids and gases, Manometers, The hydrostatic forces on plane surfaces
      • The hydrostatic forces on curved surfaces, The hydrostatic forces in layered fluids
      • Buoyancy and Stability, Fluids in rigid-body motions
      • Basic physical laws of fluid flow, Systems and control volumes, The Reynolds transport theorem, Conservation of mass
      • The Linear momentum equation, Midterm Exam: Feb. 12, 2011
      • The angular momentum equation
      • The energy equation, The Bernoulli equation
      • Dimensional analysis and similitude, Dimensional homogeneity, The Pi theorem, Dimensionless parameters
      • Modeling of fluid flow, Geometric, kinematic and dynamic similarity, The Viscous flow in ducts, Laminar and turbulent flows, Internal and external flow, Head loss and the friction factor
      • Laminar fully developed flow in pipes, Turbulent pipe flow
      • Various types of pipe flow problems, Minor losses in pipe systems
      • The flow in non-circular ducts, Fluid flow measurement

      Text Book:

      • Fluid Mechanics, By: Frank M. White


       Marine Engineering (I)(FALL_2016)

      Aims:

      An introduction to the main propulsion systems of ships

      Syllabus:

      • Introduction - Marine engineering
      • Main propulsion design procedures
      • Introducing different types of engines and mechanisms using in ships propulsion
      • Diesel Engines and matching and selection of them for ships

      Text Book:

      • R. L. Harrington, Marine Engineering, The society of naval architectures and marine engineering, 601 Pavonia Ave. , Jersey city, N.J., 1992


       Fluid Mechanics (I)(SPRING_2016)

      Aims:

      Study of fluid behavior in static and dynamic conditions and the fluid flow governing equations

      Syllabus:

      • introduction to the course program and syllabus, definition of fluid, the application of the fluid mechanics, fluid as a continuum , dimensions and units
      • Fluid flow field, the thermodynamic properties of fluids, viscosity, surface tension, the vapor pressure and cavitation
      • Basic flow analysis techniques, Flow patterns: streamlines, pathlines and streaklines, Pressure and pressure gradient, The basic equation of fluid statics
      • Absolute and Gage pressure, vacuum pressure, Hydrostatic pressure distributions in liquids and gases, Manometers, The hydrostatic forces on plane surfaces
      • The hydrostatic forces on curved surfaces, The hydrostatic forces in layered fluids
      • Buoyancy and Stability, Fluids in rigid-body motions
      • Basic physical laws of fluid flow, Systems and control volumes, The Reynolds transport theorem, Conservation of mass
      • The Linear momentum equation, Midterm Exam: Feb. 12, 2011
      • The angular momentum equation
      • The energy equation, The Bernoulli equation
      • Dimensional analysis and similitude, Dimensional homogeneity, The Pi theorem, Dimensionless parameters
      • Modeling of fluid flow, Geometric, kinematic and dynamic similarity, The Viscous flow in ducts, Laminar and turbulent flows, Internal and external flow, Head loss and the friction factor
      • Laminar fully developed flow in pipes, Turbulent pipe flow
      • Various types of pipe flow problems, Minor losses in pipe systems
      • The flow in non-circular ducts, Fluid flow measurement

      Text Book:

      • Fluid Mechanics, By: Frank M. White


       Maneuverability & Control of Ship(SPRING_2016)

      Aims:

      Syllabus:

        Text Book:




         Special Ships Design (Submarine)(SPRING_2016)

        Aims:

        Knowing about the design and hydrodynamiic principles of underwater vehicles

        Syllabus:

          Text Book:




           
           
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