Handbook : Unit informationEdith Cowan University

Faculty of Health, Engineering and Science

School: Engineering

This unit information may be updated and amended immediately prior to semester. To ensure you have the correct outline, please check it again at the beginning of semester.

• Unit Title

  Fluid Mechanics

• Unit Code

  ENS6100

• Year

  2015

• Enrolment Period

  1

• Version

  1

• Credit Points

  15

• Full Year Unit

  N

• Mode of Delivery

  On Campus
  

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Description

This unit covers the basic principles and essential concepts of fluid mechanics. Students will be given real-world engineering examples to demonstrate how their knowledge of fluid mechanics can be applied to engineering projects. Foundational physics principles will be emphasised in developing a fundamental understanding of fluid mechanics.

Equivalent Rule

Unit was previously coded ENM5218

Learning Outcomes

On completion of this unit students should be able to:

1. Analyse normal and critical flow depths and size a cross section for an open channel.
2. Apply mass, Bernoulli and energy equations to the analysis of steady flows.
3. Assess pipe networks and match a pump to a piping system.
4. Calculate and control lift and drag.
5. Calculate fluid properties and identify fluid type including compressible flow.
6. Calculate losses and measure flow rates of internal flows.
7. Perform momentum analysis and dimensional analysis for flow systems.
8. Select an appropriate turbomachine based on the requirements of a flow system.

Unit Content

1. Basic concepts of fluid mechanics, properties of fluids, pressure and fluid statics.
2. Dimensional analysis and similarity; experimental testing and modelling.
3. External flow: lift and drag.
4. Fluid kinematics including Lagrangian and Eulerian descriptions of fluids, flow patterns and flow visualisation and the Reynolds transport theorem.
5. Internal flow: flow in pipes; laminar and turbulent flows; minor losses.
6. Mass, Bernoulli, and Energy equations.
7. Momentum analysis of flow systems including linear and angular momentum equations.
8. Open-channel flow: flow classification, Froude number, specific energy, uniform flow and the best hydraulic cross sections.
9. Pipe networks and pump selection; series and parallel pipes; piping systems with pumps.
10. Turbomachinery: classification of turbomachines; pumps and turbines; performances curves; cavitation and net positive suction head; pumps in series and parallel; scaling and affinity laws.

Additional Learning Experience Information

Seminars and laboratories.

Assessment

GS1 GRADING SCHEMA 1 Used for standard coursework units

Students please note: The marks and grades received by students on assessments may be subject to further moderation. All marks and grades are to be considered provisional until endorsed by the relevant Board of Examiners.

^ Mandatory to Pass

Text References

• ^ Cengel, Y. A., & Cimbala, J. M. (2010). Fluid mechanics: Fundamentals and applications (2nd ed.). New York, NY: McGraw-Hill.
• White, F. (2011). Fluid mechanics (7th ed.). New York, NY: McGraw-Hill.
• Munson, R.B., Okiishi, T.H., Huebsch, W.W., & Rothemayer, A.P. (2013). Fluid mechanics (7th ed.). Singapore: John Wiley & Sons.
• Shames, I. (2003). Mechanics of fluids (4th ed.). New York, NY: McGraw-Hill.
• Elger, D.F., Williams, B.C., Crowe, C.T., & Robertson, J.A. (2013). Engineering fluid mechanics (10th ed.). New York, NY: John Wiley & Sons.
• Morrison, F.A. (2013). An introduction to fluid mechanics. New York, NY: Cambridge University Press.

^ Mandatory reference

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