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Numerical Analysis of Electromagnetic Control of the Boundary Layer Flow on a Ship Hull
Numerical Analysis of Electromagnetic Control of the Boundary Layer Flow on a Ship Hull
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摘要:
In this article, electromagnetic control of turbulent boundary layer on a ship hull is numerically investigated. This study is conducted on the geometry of tanker model hull. For this purpose, a combination of electric and magnetic fields is applied to a region of boundary layer on stern so that produce wall parallel Lorentz forces in streamwise direction as body forces in stern flow. The governing equations including RANS equations with SST k-ω?turbulent model coupled with electric potential equation are numerically solved by using Ansys Fluent codes. Accuracy of this turbulent model of Fluent in predicting Turbulent flow around a ship is also tested by comparing with available experimental results that it shows a good agreement with experimental data. The results obtained for ship flow show that by applying streamwise Lorentz forces that are large enough, flow is accelerated. The results are caused to delay or avoid the flow separation in stern, increase the propeller inlet velocity, create uniform flow distribution behind the ship’s hull in order to improve the propeller performance, and finally decrease the pressure resistance and total resistance.
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ELECTROMAGNETIC
Control
BOUNDARY
Layer
TURBULENT
FLOW
FLOW
Separation
Resistance
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流体动力学(英文)
主办单位:
美国科研出版社
出版周期:
季刊
ISSN:
2165-3852
CN:
开本:
出版地:
武汉市江夏区汤逊湖北路38号光谷总部空间
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302
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