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2024-2025 Undergraduate Academic Catalog-June
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CAE 2711 - Fluid Mechanics

2 lecture hours 2 lab hours 3 credits
Course Description
This course covers the basic principles of fluid mechanics necessary for the analysis and design of building plumbing and fire protection systems, air duct systems in building HVAC systems, and closed and open channel infrastructure. Specific topics will be covered using applicable case studies throughout the course.
Prereq: MTH 1110 , PHY 1110  (quarter system prereq: MA 137)
Note: Students may not receive credit for both CAE 2711 and MEC 3120 .
This course meets the following Raider Core CLO Requirement: None
Course Learning Outcomes
Upon successful completion of this course, the student will be able to:
  • Calculate the pressure at any depth below the surface of a fluid (or fluids) and the magnitude and the point of application of hydrostatic forces acting on submerged surfaces
  • Apply the equations of static equilibrium to objects submerged in or upon a fluid (i.e., buoyancy, stability, viscosity, surface tension, and drag problems)
  • Analyze inviscid flow systems using the continuity and Bernoulli’s equations
  • Calculate frictional energy losses in pipe using the Darcy-Weisbach and Hazen-Williams equations
  • Calculate forces due to change in linear momentum in a system
  • Analyze piping systems including pumps/turbines, pipe friction and minor losses using the General Energy equation
  • Apply energy principles to measure flow rate in closed and open channel situations
  • Determine the flow rate, head, and power requirements of centrifugal blowers and pumps at different operating point using (1) the affinity laws, and (2) manufacturer’s pump curves
  • Analyze open channel flow problems using Manning’s equations and specific energy
Prerequisites by Topic
  • None
Course Topics
  • Basic fluid properties
  • Pressure-depth relationships
  • Hydrostatic pressure
  • Continuity equation
  • External drag
  • Reynolds transport theorem
  • Impulse-momentum equation
  • Bernoulli equation for inviscid systems
  • General energy equation for incompressible fluids
  • Reynolds number and computing frictional and minor losses
  • Hydraulic and energy grade line
  • Pumps, blowers, affinity laws, and net positive suction head
  • Manning’s equation/open channel flows
  • Flowmeters and flow measurement in open and closed channels
  • Design case studies/design problems
Laboratory Topics
  • Interactive problem-solving sessions that reinforce the weekly lecture topics
  • Basic fluid properties, buoyancy, and stability
  • Hydrostatic force
  • Bernoulli’s equation
  • External drag
  • General energy equation, HGL and EGL
  • Energy losses through pipes
  • Flow metering and minor losses in closed channels
  • Pump curves, system curves, and affinity
  • Open channel flow measurement
  • Design your own experiment
Coordinator
Dr. William S. Gonwa, P.E.


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