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A systematic study of the rough-water performance of planing boats
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In this article, a series of constant-deadrise models, varying in length, was tested in smooth water and regular waves to define the effects of deadrise, trim, loading, speed, length-beam ratio, and wave proportions on the added resistance, on heave and pitch motions, and on impact accelerations at the bow and center of gravity.Abstract:
: A series of constant-deadrise models, varying in length, was tested in smooth water and regular waves to define the effects of deadrise, trim, loading, speed, length-beam ratio, and wave proportions on the added resistance, on heave and pitch motions, and on impact accelerations at the bow and center of gravity. Each of these parameters was varied independently of the others so as to obtain a proper evaluation of the effects of changing a single quantity. The results, presented in the form of response characteristics, cover a wide range of operating conditions; and show, quantitatively, the importance of design parameters on the rough-water performance of planing hulls.read more
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Journal ArticleDOI
Engineering Analysis and Design with ALE-VMS and Space–Time Methods
Kenji Takizawa,Yuri Bazilevs,Tayfun E. Tezduyar,Ming-Chen Hsu,Ole Øiseth,Kjell Magne Mathisen,Nikolay Kostov,Spenser McIntyre +7 more
TL;DR: The Deforming-Spatial-Domain/Stabilized Space Time (DSD/SST) method and also the variational multiscale version of the Arbitrary Lagrangian-Eulerian method (ALE-VMS) have been applied to a diverse set of challenging problems with a common core computational technology need.
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Toward free-surface modeling of planing vessels: simulation of the Fridsma hull using ALE-VMS
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URANS studies of hydrodynamic performance and slamming loads on high-speed planing hulls in calm water and waves for deep and shallow conditions
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Journal ArticleDOI
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TL;DR: In this paper, a 2D+t theory with gravity effects is applied to study the steady performance of planing vessels at moderate planing speeds, in which a new numerical model for the jet flow is introduced.
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Dynamic motions of planing vessels in head seas
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