Hydrodynamic Performance Prediction of Stepped Planing Craft Using CFD and ANNs

被引:0
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作者
Hamid Kazemi
M. Mehdi Doustdar
Amin Najafi
Hashem Nowruzi
M. Javad Ameri
机构
[1] Imam Hossein University,Mechanical Engineering Department
[2] Babol Noshirvani University of Technology,Department of Mechanical Engineering
关键词
Stepped planing craft; Hydrodynamic performance; Artificial neural network (ANN); Computational fluid dynamics (CFD); Resistance;
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摘要
In the present paper, the hydrodynamic performance of stepped planing craft is investigated by computational fluid dynamics (CFD) analysis. For this purpose, the hydrodynamic resistances of without step, one-step, and two-step hulls of Cougar planing craft are evaluated under different distances of the second step and LCG from aft, weight loadings, and Froude numbers (Fr). Our CFD results are appropriately validated against our conducted experimental test in National Iranians Marine Laboratory (NIMALA), Tehran, Iran. Then, the hydrodynamic resistance of intended planing crafts under various geometrical and physical conditions is predicted using artificial neural networks (ANNs). CFD analysis shows two different trends in the growth rate of resistance to weight ratio. So that, using steps for planing craft increases the resistance to weight ratio at lower Fr and decreases it at higher Fr. Additionally, by the increase of the distance between two steps, the resistance to weight ratio is decreased and the porpoising phenomenon is delayed. Furthermore, we obtained the maximum mean square error of ANNs output in the prediction of resistance to weight ratio equal to 0.0027. Finally, the predictive equation is suggested for the resistance to weight ratio of stepped planing craft according to weights and bias of designed ANNs.
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页码:67 / 84
页数:17
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