302246 (v.2) ChE 221 Fluid Mechanics


 

Area:Department of Chemical Engineering
Credits:25.0
Contact Hours:8.0
Lecture:1 x 3 Hours Weekly
Tutorial:1 x 1 Hours Weekly
Laboratory:1 x 4 Hours Once-only
Anti Requisite(s):302196 (v.2) ChE 512 Fluid Mechanics or any previous version
Prerequisite(s):302242 (v.2) ChE 123 Engineering Mechanics or any previous version
Co Requisite(s):302237 (v.2) ChE 121 Chemical Engineering and Society or any previous version
AND
302240 (v.3) ChE 227 Process Principles or any previous version
Syllabus:Properties of fluids. Hydrostatics. Flow fields - steady/unsteady flow, steamlines, velocity profile. Newton's law of viscosity and non-Newtonian constitutive laws. Reynolds number. Control-volume analysis - mass conservation and momentum equation. Applications of CV analysis. Bernoulli equation. Measurement of pressure and flow speed (Pitot/Pitot-static tubes, venturi meter, orifice plate) and volumetric flow rate. One-dimensional energy equation. Internal viscous flow, laminar flow in pipes/channels, friction and pressure head loss. Laminar-to-turbulent transition, turbulent flow in pipes and the Moody chart. Hydraulic grade lines and pipe/reservoir systems. Boundary layers and effects. Types of drag. Dimensional analysis. Dimensional analysis, dynamic similarity and left and drag coefficients. Pump types. Characterisation of pumps through non-dimensional groups.
 
Unit Outcomes: At the successful completion of this unit students should be able to recognise fluid phenomena and understand their causes, especially with regard to viscous and inviscid flows, characterise fluid behaviour and its effects using non-dimensional groups, apply basic conservation principles in Fluid Mechanics, model simple flow situations to make estimates of fluid forces and perform design calculations for engineering applications that involve fluid flow.
Text and references listed above are for your information only and current as of September 30, 2003. Please check with the unit coordinator for up-to-date information.
Unit References: Munson, B. et al, (2002), 'Fundamentals of Fluid Mechanics' 4th Edition, Wiley, New York. Munson, B. et al, (2002), 'Student Solutions Manual for Fundamentals of Fluid Mechanics, 3rd Edition, Wiley, New York.
Unit Texts: No prescribed text.
 
Unit Assessment Breakdown: Examination 60%. Laboratories 10%. Group exercise 10%. Class test 20%. This is by grade/mark assessment.
YearLocationPeriodInternalArea ExternalCentral External
2004Bentley CampusSemester 1Y  

 

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