Use this URL to cite or link to this record in EThOS: http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.646388
Title: Investigation of methods of delaying or controlling ventilation on surface piercing struts
Author: Rothblum, Richard Stone
Awarding Body: University of Leeds
Current Institution: University of Leeds
Date of Award: 1977
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Abstract:
The problem of undesired ventilation of partially submerged foils and appendages on hydrofoils is traced from the earliest hydrofoils which appeared toward the end of the last century. Ventilation is assessed in the context of other problems in the development of hydrofoils, and is found to be still a serious problem. The elements of the mechanism of ventilation inception are identified as a region of low energy and low pressure flow, a surface seal, and the existence of a means of rupturing the surface seal. Two modes of rupture are identified, corresponding to nose and tail ventilation. The mechanism is used to explain the use of taper, dihedral, camber, and fences to prevent ventilation. The extension of these techniques is discussed, as well as the possible application of some novel techniques and some techniques presently in use in the aerodynamic field. These include separation control by boundary layer suction and blowing, air bleed, solid and liquid fences, flaps, and controlled ventilated cavities. Observed differences between model and prototype behaviour is the basis of a discussion of modelling ventilation phenomena. Most existing data for similar geometries can be reduced to functions of the dimensionless cavitation and Froude numbers. An empirical correlation between surface drawdown and a dimensionless velocity is shown to have wide applicability independently of geometry. Two experiments were performed to gauge the effect of parameters suspected to influence model tests, primarily roughness, wettability and speed. It was found that the effects of roughness and size and speed may be analogous in certain respects. High speed cine photography revealed a mixed subsurface mode of ventilation not previously observed. It also enabled a description of the interaction of separation, cavitation and ventilation. The present methods for prediction of separation are presented and used as the basis for semi-empirical predictions of the amount of blowing and suction required to eliminate separation from struts of finite length in the presence of the free water surface. Suction and blowing in the amounts predicted were used to retard the inception of ventilation. The greatest success was achieved with a roughened model, which it is believed simulated full scale conditions more accurately. The results of the experiments with separation nearly completely eliminated call into question the hypothesis that separation is a necessary precursor of ventilation. The results of an experiment with a liquid fence barrier were mixed, but were also more successful with a roughened model.
Supervisor: Swales, Peter D. Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID: uk.bl.ethos.646388  DOI: Not available
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