Use this URL to cite or link to this record in EThOS: http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.588531
Title: Study of Taylor instabilities and turbulence in lubricating films
Author: Short, Michael Geoffrey
Awarding Body: Council for National Academic Awards
Current Institution: University of Plymouth
Date of Award: 1977
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Abstract:
The development of the wavy mode of Taylor vortices in the flow between a rotating inner cylinder and a stationary outer cylinder has been investigated by visual observations using a stroboscopic technique and by inner cylinder torque measurements. Radius ratios of 0.874, 0.911, 0.950 and 0.975 have been tested for the concentric and eccentric cylinder cases. The stability of wavy mode flow has been found to decrease with increasing radius ratio and/or increasing eccentricity. Observations of the flow suggested that the wavy mode can be classified into three regimes called, respectively, the primary, transitional and secondary modes. The three regimes were most easily identified using a radius ratio of 0.911 and concentric cylinders. In this case, the onset of the transitional state (so called because of the tendency for the circumferential wave number to change continually even at particular constant speeds) was found to be particularly violent, completely destroying the well defined nature of the primary wavy mode. Rather surprisingly, this quasi-turbulent regime of wavy mode flow was found to give way to the more regular secondary wavy mode as the speed of the inner cylinder was increased. Non-uniqueness is shown to be an important feature of wavy mode flow. Results are presented showing that circumferential wave number changes can often be detected by torque measurements. In particular, the onset of the transitional state results in a sudden reduction in the required driving torque, the magnitude of which is considerably influenced by the stability of the primary wavy mode flow. Friction coefficient characteristics derived from the torque measurement results are used to deduce a general relationship incorporating the effects of the eccentricity and radius ratios.
Supervisor: Not available Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID: uk.bl.ethos.588531  DOI: Not available
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