基于动态水域网格计算的船舶领域研究

为了满足现代船舶的发展需求,结合船舶自动识别系统(AIS)数据量巨大,包含了丰富的船舶信息等优点.本文利用SQL2012对AIS数据进行处理,建立包含船舶静态信息和动态信息的数据库;借助C#程序语言,构建以中心船舶为原点的网格坐标系,并以船舶间相对距离方位计算周围船舶在网格中的相对位置坐标;对同长度和类型的船舶进行网格叠加计算,并以船舶频数的方式进行统计,采用数据处理软件Matlab以最小二乘法的方式对统计结果进行处理;对研究水域的主要船型不同尺度的船舶领域进行对比和统计分析,并对不同船型船舶领域略作讨论,总结得出开阔水域船舶领域的特点.     

风电运维船与风机塔基耦合水动力响应分析研究

海上风电运维船通常采用船首顶靠海上风机塔基靠船桩的方式来保证风机维护人员的安全登塔,因此对其在相应海况条件下的纵摇、升沉等水动力响应进行分析研究很有必要.本文采用Fine/Marine和AQWA软件,对某运维船在实际海况条件下的耦合水动力响应进行分析研究,从而为风电维护人员的安全登离以及辅助登离设备的研发提供参考.     

Tuning of transfer functions for analysis of wave–ship interactions

Transfer functions are often used together with a wave spectrum for analysis of wave–ship interactions, where one application addresses the prediction of wave-induced motions or other types of global responses. This paper presents a simple and practical method which can be used to tune the transfer function of such responses to facilitate improved prediction capability. The input to the method consists of a measured response, i.e. time series sequences from a given sensor, the 2D wave spectrum characterising the seaway in which the measurements are taken, and an initial estimate of the transfer function for the response in study. The paper presents results obtained using data from an in-service container ship. The 2D wave spectra are taken from the ERA5 database, while the transfer function is computed by a simple closed-form expression. The paper shows that the application of the tuned transfer function leads to predictions which are significantly improved compared to using the transfer function without tuning.     

基于ANN的船舶撞击高桩码头群桩损伤位置预测

本文采用有限元软件ABAQUS建立了船舶撞击高桩码头群桩的空间有限元模型。通过计算评估了撞击力、桩体刚度、撞击位置和撞击角度下对群桩结构损伤位置的影响。基于人工神经网络(ANN)方法,对不同参数组合下的群桩结构损伤位置进行了预测,并对ANN方法的可行性进行了评估。     

内河航道桥梁船撞时船体最大变形量研究

目前在桥梁船撞防护的专项设计或船撞力专题研究中,对船舶撞击力的研究和桥梁在船舶撞击作用下的响应关注较多,而对船体最大变形量的研究较少。基于ANSYSLS-DYNA软件,对4种不同载质量的内河代表船舶在3种航速、2种碰撞角度下撞击4种墩型的船撞工况进行数值模拟,提取船体最大变形量,并分析船体最大变形量与船舶载质量、撞击速度、桥墩类型及撞击角度的关联性,同时与经验公式做对比。研究结果表明,撞击速度及撞击角度是船体最大变形量的主要控制因素,桥墩类型与之关系不明显。     

海上装配式混凝土石油平台设计

以渤海湾某油田为例,针对海油陆采一体化技术所需平台的功能要求,基于我国水运工程规范体系及现状技术水平,提出一种适用于油田开采的新型装配式混凝土平台结构方案,并对平台的结构设计理念、规范适应性研究、设计方案、施工船机配置、平台弃置等进行研究,可为类似海上大型平台结构提供借鉴。     

基于CBM的船舶设备健康管理系统

结合分析基于CBM的船舶设备健康管理系统及其国内外研究现状,设计了系统实施流程、技术和功能架构；通过开展状态监控技术、综合诊断技术以及健康评估技术的研究,进行综合状态评估，实现船舶设备健康管理。最后,从数据采集、状态评估、性能预测和维修决策支持等方面对实现系统的关键技术进行论述。基于CBM的船舶设备健康管理系统实现了对船舶设备健康状态及趋势的实时知悉,并对使用、维修活动的决策提供了辅助支持功能,从而降低设备维修费用,提高船舶设备使用效能。     

考虑横向漂移的船舶路径跟踪自抗扰控制

针对船舶运动系统中内部动态不确定和外部干扰等问题,进行了欠驱动船舶路径跟踪的自抗扰方法研究。利用Backstepping设计参考航向角,并通过线性扩张状态观测器对流干扰和横向运动引起的横向漂移进行估计。其次,根据自抗扰算法对航向进行控制,采用线性扩张状态观测器对外界干扰及内部不确定项进行估计。最后仿真结果表明,在风流干扰下所设计的控制器仍能使船准确地跟踪上参考路径,验证了所提控制方案的有效性。     

Comparing different contour methods with response-based methods for extreme ship response analysis

Environmental contours are often applied in probabilistic structural reliability analysis to identify extreme environmental conditions that may give rise to extreme loads and responses. They facilitate approximate long term analysis of critical structural responses in situations where computationally heavy and time-consuming response calculations makes full long-term analysis infeasible. The environmental contour method identifies extreme environmental conditions that are expected to give rise to extreme structural response of marine structures. The extreme responses can then be estimated by performing response calculations for environmental conditions along the contours.Response-based analysis is an alternative, where extreme value analysis is performed on the actual response rather than on the environmental conditions. For complex structures, this is often not practical due to computationally heavy response calculations. However, by establishing statistical emulators of the response, using machine learning techniques, one may obtain long time-series of the structural response and use this to estimate extreme responses.In this paper, various contour methods will be compared to response-based estimation of extreme vertical bending moment for a tanker. A response emulator based on Gaussian processes regression with adaptive sampling has been established based on response calculations from a hydrodynamic model. Long time-series of sea-state parameters such as significant wave height and wave period are used to construct N-year environmental contours and the extreme N-year response is estimated from numerical calculations for identified sea states. At the same time, the response emulator is applied on the time series to provide long time-series of structural response, in this case vertical bending moment of a tanker. Extreme value analysis is then performed directly on the responses to estimate the N-year extreme response. The results from either method will then be compared, and it is possible to evaluate the accuracy of the environmental contour method in estimating the response. Moreover, different contour methods will be compared.     

西津水利枢纽二线船闸下游引航道右岸支流汇入口消能设施设计

西津水利枢纽二线船闸工程是建设"西江亿吨级黄金水道"的重要举措之一。为研究二线船闸下引航道停泊段右岸西竹坑支流的汇入对二线船闸下引航道内通航水流条件的影响,通过水工模型试验研究在支流沟内布置消能设施对支流入汇口处流速、流态的影响,提出斜向导流坝、消力墩和消力池的工程措施,为类似工程提供借鉴。