文章基本信息

标题：Prevention of Cavitation in Propellers
本地全文：下载
作者：Mojtaba Taseidifar ; John Joseph Antony ; Richard Pashley 等
期刊名称：Substantia
电子版ISSN：2532-3997
出版年度：2021
卷号：4
期号：2 Suppl. 1
页码：109-117
DOI：10.36253/Substantia-821
出版社：Firenze University Press
摘要：It is well known that cavitation phenomena affect the efficiency of propellers. It is a major worldwide economic problem for the transport industry. The speed of fast, ocean going vessels is limited by cavitation effects on hydrofoils and propulsion systems. The main approaches by industry to mitigate the detrimental effects of cavitation on propellers is restricted to varying operating conditions, geometric design and employing wear resistant materials. We here develop a simple solution to the problem. It has been known for over a century that dissolved gases reduce the tensile strength of liquids by orders of magnitude. Degassing a liquid dramatically reduces its ability to cavitate. Propeller cavitation in ships and submarines is typically controlled by reducing rotation rate and/or blade pitch. We here demonstrate the astonishing fact that cavitation can be completely prevented by releasing degassed water adjacent to the low pressure side of a rotating propeller, without varying blade speed or pitch. Practical implementation is simple and cheap.
其他摘要：It is well known that cavitation phenomena affect the efficiency of propellers. It is a major world wide economic problem for the transport industry. The speed of fast, ocean going vessels is liimted by cavitation effects on hydrofoils and propulsion systems. The main approaches of industry to mitigate the detrimental effects of cavitation on propellers is restricted to varying operating conditions, geometric design and choice of wear resistant materials. We here develop a simple solution to the problem. It has been known for over a century that dissolved gases reduce the tensile strength of liquids by orders of magnitude. De-gassing of a iquid dramatically reduces the ability of a fluid to cavitate. Propeller cavitation in ships and submarines is typically controlled by reducing rotation rate and/or blade pitch. We here demonstrate the astonishing fact that cavitation can be completely prevented by releasing de-gassed water adjacent to the low pressure side of a rotating propeller, without varying blade speed or pitch. Practical implementation is simple and cheap.
关键词：cavitation; degassing; hollow fibre membrane; propeller.
其他关键词：Cavitation;degassing;hollow fibre membrane;propeller