大型港口装卸设备移动卷绕式高压电缆的接头新工艺

以日照港煤码头为例,介绍扁平高压电缆中间头制作及外护套恢复新工艺,修复后的电缆能有效控制电缆进水造成相间绝缘下降而引发的接地、短路故障。     

海港港池和回旋水域平面尺度研究

在分析港池和回旋水域平面尺度主要影响因素的基础上,对国内、外相关规范关于港池和回旋水域平面尺度的计算方法进行对比研究,并通过典型工程实例加以说明,对海外港口工程水域尺度的确定及拓宽国内海港工程水域尺度设计思路具有借鉴意义。     

波浪对有梁面板结构冲击作用数值模拟

采用计算机数值模拟方法,在FLUENT软件计算平台上建立了二维规则波数值波浪水槽,对透空有梁面板结构底面受到的波浪冲击作用进行研究。数学模型采用RANS方程和k-ε湍流模型,以VOF方法处理自由表面。通过对不同工况的数值模拟和试验结果比较,验证了模型的造消波性能和应用的有效性。通过计算,得到了波浪冲击过程中波陡、超高和板宽各因素对冲击压强的影响。最后在已有冲击压强计算公式基础上提出了修正公式,以更准确地预报波浪的冲击荷载,深入认识波浪冲击机理。     

重力式方块卸荷板大型构件出运码头升级改造

以工程实例介绍了重力式方块卸荷板码头的改造设计方案。由于原有码头卸荷板悬臂较大,在码头前沿均布荷载增大的情况下,使得基床顶面产生较大的后倾应力,基床承载力不满足规范要求。改造方案通过在后方设灌注桩及现浇钢筋混凝土板,减少码头卸荷板悬臂部分上部荷载,防止基床顶面产生较大的后倾应力,为类似的码头改造设计提供了借鉴。     

煤炭码头三维可视化管控系统研究与应用

基于虚拟现实技术、信息技术、网络技术等,构建煤炭码头三维可视化管控系统。通过与信息管理系统生产运营数据的对接,在网络环境下,实现煤炭码头生产运营状态的实时展示和实时信息查询,以及生产运营过程中设备的快速定位及紧急报警。该系统可为煤炭码头管理人员提供直观的、可交互的辅助港口运营分析、决策的平台。通过在黄骅港煤炭码头的工程应用验证了该系统的先进性和实用性。     

1万m~3 LNG运输船碰撞仿真模拟分析

以1万m3内河小型LNG运输船为例,探讨船舶碰撞数值仿真方法的分析过程和方法,获得该船与不同排水量撞击船相撞时临界撞击速度与撞击角度的关系曲线,根据计算结果对典型LNG运输船的安全运营给出意见和建议。     

低阻通风船体的远程控制测试平台开发（英文）

This paper addresses the development and testing of a remotely controlled boat platform with an innovative air-ventilated hull. The application of air cavities on the underside of ship hulls is a promising means for reducing hydrodynamic drag and pollutant emissions and increasing marine transportation efficiency. Despite this concept’s potential, design optimization and high-performance operation of novel air-cavity ships remain a challenging problem. Hull construction and sensor instrumentation of the model-scale air-cavity boat is described in the paper. The modular structure of the hull allows for easy modifications, and an electric propulsion unit enables self-propelled operation. The boat is controlled remotely via a radio transmission system. Results of initial tests are reported, including thrust, speed, and airflow rate in several loading conditions. The constructed platform can be used for optimizing air-cavity systems and testing other innovative hull designs. This system can be also developed into a high-performance unmanned boat.     

A havelock source panel method for near-surface submarines

A panel method is described for calculating potential flow around near-surface submarines. The method uses Havelock sources which automatically satisfy the linearized free-surface boundary condition. Outputs from the method include pressure field, pressure drag, wave resistance, vertical force, trim moment and wave pattern. Comparisons are made with model tests for wave resistance of Series 58 and DARPA SUBOFF hulls, as well as with wave resistance, lift force and trim moment of three length-to-diameter variants of the DSTO Joubert submarine hull. It is found that the Havelock source panel method is capable of determining with reasonable accuracy wave resistance, vertical force and trim moment for submarine hulls. Further experimental data are required in order to assess the accuracy of the method for pressure field and wave pattern prediction. The method is implemented in the computer code “HullWave” and offers potential advantages over RANS-CFD codes in terms of speed, simplicity and robustness.     

A non-geometrically similar model for predicting the wake field of full-scale ships

The scale effect leads to large discrepancies between the wake fields of model-scale and actual ships, and causes differences in cavitation performance and exciting forces tests in predicting the performance of actual ships. Therefore, when test data from ship models are directly applied to predict the performance of actual ships, test results must be subjected to empirical corrections. This study proposes a method for the reverse design of the hull model. Compared to a geometrically similar hull model, the wake field generated by the modified model is closer to that of an actual ship. A non- geometrically similar model of a Korean Research Institute of Ship and Ocean Engineering (KRISO)’s container ship (KCS) was designed. Numerical simulations were performed using this model, and its results were compared with full-scale calculation results. The deformation method of getting the wake field of full-scale ships by the non-geometrically similar model is applied to the KCS successfully.