共查询到17条相似文献,搜索用时 62 毫秒
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针对小水线面双体船(SWATH)的不足,提出了新型双体、三体船型.通过模型试验方法,对上述船型的阻力性能进行了研究.结果表明,新型三体船由于舯前首中体的设置使得阻力在一定的航速范围内大幅降低;新型双体和三体船型在阻力性能上较SWATH船表现出了一定的优越性. 相似文献
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本文以一个基本母型为基础,通过变换船型要素得到一个系列船型,用Tribon软件生成了各方案的型线,应用Shipflow软件对系列船的兴波阻力进行了计算,得到主要要素与兴波阻力之间的一些规律,为确定主要要素提供了阻力性能方面的依据。为了验证Shipflow的计算结果,对基本母型进行了船模阻力试验,并与理论计算结果进行了比较。 相似文献
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介绍尾板改善船舶性能的流体动力机理,对加装不同参数尾板的高速双体船的阻力性能进行模型试验和对比分析,验证了尾板可以减小尾波能量的损耗,减阻效果明显,并提出可调下反角尾板的设想。 相似文献
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Goutam Kumar Saha Kazuo Suzuki Hisashi Kai 《Journal of Marine Science and Technology》2005,10(1):32-40
Here, a numerical optimization procedure is proposed for a fundamental study of a fast catamaran, and we compare the wave-making characteristics of a catamaran hull form with and without large bow and stern airship-type bulbs installed on the center plane of a catamaran operating at high speed. The method involves coupled ideas from two distinct research fields: numerical ship hydrodynamics and a nonlinear programming technique. The wave-making characteristics of catamaran hulls with and without bulbs were investigated using the panel method applied to free surface flow (PAFS), in which Morinos method for lifting bodies is extended to analyze the problem of free surface flow, and PAFS is linked to the optimization procedure of the sequential quadratic programming (SQP) technique. An optimum hull form for a catamaran can be obtained through a series of iterative computations, subject to some design constraints. Here, only the hull shape of a catamaran is optimized with and without center-plane bow and stern bulbs. The optimization is carried out at two Froude numbers, 0.45 and 0.5, which are around the last hump of the wave-making resistance curve. The numerical results show that a reduction in wave-making resistance is achieved around the design speed. 相似文献
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In order to get some useful parameters for grid generation of catamaran, the CFD software FLUENT is used to investigate the
main effects of grid generation on flow field calculation. The influences of some elements are investigated with a series
of calculations in the present paper, and some alteratives are proposed. The proposed alteratives based on the analysis of
the effects are used for a catamaran resistance calculation, comparisons of the calculated results with experimental data
show good agreement. It shows that the research result of this paper is useful for the numerical calculation of catamaran. 相似文献
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