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Water Distribution Networks

What Will Learn?

  • Course Aims
    The aim of this course is to provide students with the needed knowledge and skills, which enable them to activate and practice the main steps of simulating pipeline networks. In addition, many different phenomena encountered in the mechanical power engineering fields are explained.
  • Course Goals
  • Industry, Innovation and Infrastructure

Requirements

MEP311s

Description

  • English Description

    Steady Incompressible Flow Through Pipe Systems, Pipe Flow: Darcy-Weisbach Equation, Moody Diagram, Simple Pipe Problems, Minor Losses, Equivalent Length of Minor Losses, The Siphon Pipes Connections: Pipes In Series, Pipes In Parallel, Graphical Solution, Branching of Pipes, Pumping from One Reservoir to Two Or More Reservoirs, Hazen-Williams Formula, Network of Pipes: Hardy Cross Method, Using Hazen-Williams Formula, Using Friction Factor of Moody Chart, Linear Theory Method, Systems with Multiple Fixed-Pressure-Head Elevations, Pseudo Loops, Hydraulic Path, Graphical Solutions of Branch-Line Pumping Systems: Branches in Closed Loop Systems, Branches In Open-Ended Loop Systems.
  • Arabic Description

    Steady Incompressible Flow Through Pipe Systems, Pipe Flow: Darcy-Weisbach Equation, Moody Diagram, Simple Pipe Problems, Minor Losses, Equivalent Length of Minor Losses, The Siphon Pipes Connections: Pipes In Series, Pipes In Parallel, Graphical Solution, Branching of Pipes, Pumping from One Reservoir to Two Or More Reservoirs, Hazen-Williams Formula, Network of Pipes: Hardy Cross Method, Using Hazen-Williams Formula, Using Friction Factor of Moody Chart, Linear Theory Method, Systems with Multiple Fixed-Pressure-Head Elevations, Pseudo Loops, Hydraulic Path, Graphical Solutions of Branch-Line Pumping Systems: Branches in Closed Loop Systems, Branches In Open-Ended Loop Systems.
  • Department
    Mechanical Power Engineering
  • Credit Hours
    2
  • Grades
    Total ( 100 ) = Midterm (25) + tr.Student Activities (35 = tr.Industry 5% , tr.Project 20% , tr.Self_learning 10% , tr.Seminar 0% ) + Exam Grade (40)
  • Hours
    Lecture Hours: 2, Tutorial Hours: 1, Lab Hours: 0
  • Required SWL
    100
  • Equivalent ECTS
    4
  • Fluid Mechanics
  • Streeter
  • Ed.4
  • Design of Water supply Pipe Networks
  • Prabhata K. Swamee, A4hock K. Shaema
  • Jhon Wiley & Sons Publication
  • Hydraulic of Pipeline Systems
  • Bruce E. Larock, Roland W. Jeppson, Gary Z. Watters
  • CRC Press - Fluid Mechanics, Streeter, Ed.4 - Fluid Mechanics, Streeter, Ed.4.