各船级社加紧备战LNG燃料技术关

许多船级社认为，在技术层面上，LNG对于所有的船型和大小船舶都适用。目前．中国船级社已对气体燃料发动机方面的技术文件编制、规范开发、实船试验做了大量工作．并拥有了比较完备的技术标准。意大利船级社最新推出LNG燃料船附加标志．确保机器设备的安全和可靠性。     

舰用齿轮箱抗冲击能力时域计算

为找出舰船设备的潜在问题或薄弱环节，从而保证舰船的战斗力；以及为避免由于对设备的抗冲击性能不了解即进行冲击试验可能对设备造成的损坏，抗冲击数值模拟分析对于舰用设备是必要的。对舰用齿轮箱抗冲击能力进行时域数值模拟，使用MDT软件建立齿轮箱三维几何模型，利用HyperMesh软件进行前处理以及有限元网格划分，并将有限元模型导入ABAQUS软件，对齿轮箱抗冲击能力进行时域计算。分析数值模拟结果得到了齿轮箱典型部位处冲击响应，总结了齿轮箱抗冲击的一些规律，并找出了齿轮箱结构抗冲击的薄弱环节，为齿轮箱结构优化设计提供了参考。     

自升式移动平台污油水系统设计

分析了自升式移动平台防止污油水污染系统设计所依据的法律法规,污油水产生的来源。运用最新的规范法规,对自升式平台钻采系统和机器处所处产生的污染物分别进行设计、处理,能够达到公约和沿岸国地区规则排放的要求,具有较强的实际应用意义。     

Numerical simulation of the anti-shock performance of a gear case

Both sea battles and testing of ship in underwater explosions reveal unacceptably poor anti-shock performance of important shipboard equipment. Anti-shock performance of shipboard equipment is a significant factor determining fighting strength and survivability. The anti-shock performance of a shipboard gear case based on BV043/85 was investigated using numerical simulation. A geometric model of the gear case was built using MDT software and meshed in HyperMesh software, and then the finite element model of the gear case was formed. Using ABAQUS software, the anti-shock performance of the gear case was simulated. First, shock response of typical regions of gear case was determined. Next, some generalizations were made about the anti-shock performance of the gear case by analyzing the Mises stress of typical regions varied with shock inputs. Third, weak regions were determined from simulation results. The threshold values of shock resistance of the gear case at different impulse widths were obtained through interpolating the numerical simulation results selected from the most dangerous spot. This research provides a basis for further optimization of the design of gear cases.