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周玉飞 《船舶标准化工程师》2014,(3):44-46
阐述了船体初始化设置的含义,分析了船体初始化在船体生产设计中的重要性,最后对初始化设置完成后必须检查的项目与注意事项进行了详细地介绍. 相似文献
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介绍散货船当前的状况和存在的隐患及单壳体散货船和双壳体散货船的优缺点;同时对散货船船型的未来发展趋势进行了分析,提出控制船体结构重量,确保载重量指标,优化船体结构,增大舱容等优选型双壳散货船的设计特点。 相似文献
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船舶在航行过程中,螺旋桨在不均匀的伴流场中工作产生周期性的弯曲力矩作用在螺旋桨轴上,使推进轴系在螺旋桨或转轴上旋转的横向力矩作用下,旋转轴绕其静平衡曲线产生振动,从而出现回旋振动现象,而严重的轴系回旋振动引起轴承反力的动力放大而引起船体尾部结构的振动.本文对一艘尾部结构振动严重的船舶进行了推进轴系回旋振动计算分析及实船振动测量验证,分析了推进轴系回旋振动对船体尾部结构振动影响,通过更换尾管前轴承、调整中间轴承的位置,解决了轴系回旋振动引起的船体尾部结构严重振动问题,为解决类似船体尾部振动问题分析提供参考. 相似文献
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阐述了国外的无压载水舱的贯通流船体和V型船体,并以6500t无压载水舱油船为例,提供了主尺度、线型和技术参数。通过与常规油船的分析比较,显示该新船型的优势。为推动无压载水舱的其他船型的开发提供了指导方案。 相似文献
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主要介绍了船型开发品牌和技术创新战略内涵及意义,应用创新和品牌战略管理理论,对我国船舶工业面临的发展机遇、环境和形势、发展目标进行了分析,提出了实施船型品牌战略和设计技术创新的一些建议。 相似文献
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船型几何模型的参数化表达,是船型多学科设计优化的基础。其作用是为各学科分析和优化提供一个统一的几何模型,并根据各学科分析结果自动修改调整船体型线。文中尝试使用Friendship进行船体完全参数化建模,并使用该软件中的feature编程功能编程实现shipflow型值数据的提取;通过改变一系列重要的船型参数实现变换船型几何模型,以获得满足性能需求的船型。最后利用该软件的优化框架,采用切线搜索法 (Tangent Search, TSearch) 完成1300TEU集装箱船的兴波阻力优化,优化球首和前体船体曲面。结果表明,该参数化方法在改进船型水动力性能方面有很好的效果。 相似文献
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多体船技术开发 总被引:3,自引:0,他引:3
许统铨 《交通部上海船舶运输科学研究所学报》2000,23(2):135-143
回顾并分析近年来国内外多体船技术开发的概况,首先介绍多体船开发的背景,然后以图表、数据展示澳大利亚、英国、中国、日本等国对超细长双体船研究开发的实例,最后简述国内外对三体船以及五体开发的情况。 相似文献
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Global strength is a significant item for floatingproduction storage and offloading (FPSO) design, and steel weightplays an important role in the building costs of FPSO. It is the maintask to consider and combine these two aspects by optimizing hulldimensions. There are many optional methods for the globalstrength analysis. A common method is to use the ABS FPSOEagle software to analyze the global strength including the rulecheck and direct strength analysis. And the same method can beadopted for the FPSO hull optimization by changing the depth.After calculation and optimization, the results are compared andanalyzed. The results can be used as a reference for the futuredesign or quotation purpose. 相似文献
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The research performed in this paper was carried out to investigate the computational procedure to design seakeeping optimized ship hull form. To reach the optimized hull form, four stages should be done, which consists of: generate alternative hull form, seakeeping calculations, objective functions and optimization techniques. There are many parameters that may be determined in ship hull form optimization. This paper deals with developed strip theory for determining the seakeeping performance, genetic algorithm(GA) as optimization method, high order equations for curve fitting of the hull form and finally reaching to the minimum bow vertical motion in regular head waves. The Wigley hull is selected as an initial hull and carried to be optimized. Two cases are considered. For the first case, the only form coefficients of the hull(C B, C M, C W, C P) are changed and main dimensions(L, B, T) are fixed. In the second case both hull form and main dimensions are varied simultaneously. Finally, optimized hull form and its seakeeping performances are presented. The results of optimization procedure demonstrate that the optimized hull forms yield a reduction in vertical motion and acceleration. 相似文献
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The research performed in this paper was carried out to investigate the computational procedure to design seakeeping optimized ship hull form. To reach the optimized hull form, four stages should be done, which consists of: generate alternative hull form, seakeeping calculations, objective functions and optimization techniques. There are many parameters that may be determined in ship hull form optimization. This paper deals with developed strip theory for determining the seakeeping performance, genetic algorithm (GA) as optimization method, high order equations for curve fitting of the hull form and finally reaching to the minimum bow vertical motion in regular head waves. The Wigley hull is selected as an initial hull and carried to be optimized. Two cases are considered. For the first case, the only form coefficients of the hull (CB, CM, Cw, Cp) are changed and main dimensions (L, B, 7) are fixed. In the second case both hull form and main dimensions are varied simultaneously. Finally, optimized hull form and its seakeeping performances are presented. The results of optimization procedure demonstrate that the optimized hull forms yield a reduction in vertical motion and acceleration. 相似文献
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具有优良耐波性和隐身性的舰船是当前世界各海军强国舰艇平台技术研究的重要发展趋势。以往舰艇的雷达波隐身设计主要是对上层建筑和舰面设备进行外形隐身设计,对主船体很少进行雷达波隐身设计,主要是因为主船体的隐身设计可能会影响其航行性能。为进一步提高舰船的隐身性和耐波性,本文以几千吨级舰艇为对象,在对船体进行隐身设计的基础上,以深V船型作为设计船体水线以下部分的基础线型,通过对底升角、首部吃水、尾部形状、长宽比和底面的凹凸进行优化,对比在不同情况下的耐波性和阻力,对船舶运动及水动力性能进行分析,提出了一种适用于未来隐身水面舰艇的高耐波性船型。 相似文献
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51800DWT冰区加强型化学品/成品油轮是广船国际自行开发设计的、具有世界先进水平的北极冰区航线成品油/化学品船。该船可满足全球造船业所公认的高等级规范“瑞典-芬兰冰级1Asuper”。本文结合冰区加强结构设计介绍该船的船体结构设计特点。 相似文献
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船体结构的缺陷是老龄散货船的重大隐患,近年呈逐年上升趋势,并成为保持船级检验和PSC检查的重点。总结了老龄散货船的船体检验和PSC在结构方面的检查项目,并对船公司和船员在实际工作中的安全管理提出了相应的对策。 相似文献
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