School of Mechanical Engineering
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The School of Mechanical Engineering conducts research in a diverse and wide range of areas. Major areas of interest include the following:
- Acoustic, Vibration and Control
- Air Conditioning
- Tubulence, Energy and Combustion
- CRC for Welded Structures
- Robotics
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School of Mechanical Engineering
THE UNIVERSITY OF ADELAIDE
SA 5005
AUSTRALIA
Telephone: +61 8 8313 5460
Facsimile: +61 8 8313 4367
THE UNIVERSITY OF ADELAIDE
SA 5005
AUSTRALIA
Telephone: +61 8 8313 5460
Facsimile: +61 8 8313 4367
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Item Open Access Effect of acoustic vibration on the combustion of pulverised coal in a gas turbine type metal combustor(Adelaide,, 1952) Singh, Rajendra; Dept. of Mechanical EngineeringItem Open Access Studies in marine propulsion vibration(1964) Norrie, Douglas Hector; Dept. of Mechanical EngineeringItem Open Access The synthesis of active and passive automobile suspension systems by pole-zero methods [microform](1965) Thompson, Anthony George; Dept. of Mechanical EngineeringItem Open Access Hydrojet ducted propulsion systems : impeller induced vibratory pressures and performance characteristics(1966) Hale, Malcolm Robert; Dept. of Mechanical EngineeringItem Open Access An investigation into the characteristics of tapered and stepped land hydrostatic journal bearings(Adelaide,, 1969) Carpenter, Allan Lloyd; Dept. of Mechanical EngineeringItem Open Access An investigation into the development of laminar natural convection in heated vertical ducts(Adelaide,, 1971) Dyer, James Ross; Dept. of Mechanical EngineeringItem Open Access A study of pressure fluctuations in turbulent shear flows under the effects of mean pressure gradients(Adelaide,, 1971) Lim, Kim Boon; Dept. of Mechanical EngineeringItem Open Access The vibrational response of and the acoustic radiation from thin-walled pipes, excited by random fluctuating pressure fields / by D.C. Rennison(Adelaide,, 1976) Rennison, David Charles; Dept. of Mechanical EngineeringItem Open Access Organized structures in the turbulent boundary layer / Andrew S.W. Thomas(1977) Thomas, Andrew, (Andrew S. W.), 1951-; Dept. of Mechanical EngineeringItem Open Access The vibrational energy transmission through connected structures / by P.B. Swift(Adelaide,, 1977) Swift, Peter Bevan; Dept. of Mechanical EngineeringItem Open Access Noise characteristics and exhaust process gas dynamics of a small 2-stroke engine(Adelaide,, 1978) Jones, Adrian David; Dept. of Mechanical EngineeringItem Open Access Time-averaged holography for the study of three-dimensional vibrations / by Renzo Tonin(Adelaide,, 1978) Tonin, Renzo Frank; Dept. of Mechanical EngineeringItem Open Access Propagation and reactive attenuation of low frequency sound in hard-walled ducts with and without flow / by C.R. Fuller(1978) Fuller, Christopher R.; Dept. of Mechanical EngineeringItem Open Access Thermal energy system synthesis : the origin and development of a scientific procedure for the design of thermal energy systems(Adelaide,, 1978) Tostevin, Graham Mark; Dept. of Mechanical EngineeringItem Open Access A unified approach to the design of climate simulators(1979) Shaw, Allan; Dept. of Mechanical EngineeringItem Open Access A study of modal sound radiation/ by C.H. Hansen(1979) Hansen, Colin Henry; Dept. of Mechanical EngineeringItem Open Access The effects of internal flow disturbances on the vibration response of and the acoustic radiation from pipes(1979) Norton, Michael Peter; Dept. of Mechanical EngineeringItem Metadata only Near field determination of the complex radiation efficiency and acoustic intensity distribution for a resonantly vibrating surface(Elsevier, 1979) Hansen, C.H.; Bies, D.A.An experimental procedure is described which allows both the resistive and reactive parts of the acoustic radiation efficiency of a resonantly vibrating surface to be determined from measurements in the acoustic near field. In addition, the procedure allows the precise quantitative location on the vibrating surfaces of acoustic sources which radiate energy to the far field. The method described here allows far greater detailed investigation of an acoustically radiating surface than is possible with alternative experimental procedures described in the literature.Item Metadata only Measurements of the radiation impedance presented to a source in a reverberant room containing a rotating diffuser(American Institute of Physics, 1979) Bies, D.A.; Hansen, C.H.Abstract not availableItem Open Access The large scale structure in two-dimensional vorticity layers and the centre-to-centre point-vortex approximation(1980) Delcourt, Bernard A.; Dept. of Mechanical Engineering