Rotodynamic machines
R Beebe
6 points
* 52 lecture hours, 26 tutorial and laboratory hours
*
Full-year subject
* Gippsland
* Prerequisites: GEG3743, GEG3763
Objectives The student will acquire an understanding of the behaviour of rotodynamic machines and be able to investigate and solve vibration and performance problems in a range of machines common in industry. The student is expected to understand the principles of condition monitoring and balancing as applied to rotodynamic machines.
Synopsis Pumps and fans: performance characteristics, industry applications in systems, selection, investigation and solution of operating problems, modifications to improve performance or operating economy, testing. Similarity and dimensional analysis. Compressors, gas turbines, steam turbines, water turbines: performance characteristics, testing. Hydrodynamic bearings and alignment. Condition monitoring to detect internal deterioration and predict maintenance requirements. Measurement of pressure, flow, temperature for performance monitoring. Measurement of shaft and casing vibration, severity assessment and analysis. Wear debris and visual inspection methods. Flexible rotors and field balancing. Blading vibration.
Assessment Examinations: 40%
* Laboratories, problem and research
assignments: 60%
Prescribed texts
Douglas J F and others Fluid mechanics 2nd or 3rd edn, Longman
APMA Australian pump technical handbook APMA, 1987
| Published by Monash University, Clayton, Victoria
3168 Copyright © Monash University 1996 - All Rights Reserved - Caution Authorised by the Academic Registrar December 1996 |