EMS型磁悬浮列车运行阻力计算

就传统的轮机列车和ＥＭＳ型磁悬浮列车运行时所受到的阻力进行了简要分析，着重计算了ＥＭＳ型磁悬浮列车的电磁阻力，并提出了青城山试验示范线磁悬浮列车对直线电机驱动功率的要求。     

多值非线性系统的自适应控制

提出了带有多值非线性环节的线性离散系统的自适应控制算法，仿真实验的结果表明：该算法简单易行具有明显的优点，跟踪误差比采用一般的自适应控制算法时要小得多，且能保证闭环系统大范围近收敛。     

变频调速系统的管理和维护

分析变频器运行中的常见故障,介绍做好变频调速系统日常管理和维护的方法.     

西北太平洋波浪数据库的开发与应用

基于中国船舶科学研究中心有关人员编著的《西北太平洋波浪统计集》一书，提出了一个西北太平洋波浪数据库系统，并介绍了它的主要功能、组成结构和应用实例。该数据库系统能有效地应用于舰船和海洋平台的设计。     

现代船舶动力定位系统设计

围绕现代动力定位系统的设计问题,讨论系统的构建、数学建模、控制器设计和推力器的推力分配,重点给出了基于扩展Kalman滤波的动力定位LQG控制器设计算法。     

渤海波浪地理信息系统的建立

随着地理信息系统(GIS)的广泛应用,建立一个具有波浪预报或后报功能的信息系统为工程建设服务,不仅十分必要,而且随着波浪模拟技术的发展变得可能。文中论述了采用第三代波浪模型中的SWAN(SimulatingWAves Nearshore)来模拟渤海波浪场,在获得较长时间波浪模拟结果的基础上,对渤海波浪地理信息系统的建立进行了一些尝试和探索。这些波浪资料对于港口及海洋工程是十分必要的。     

海事赔偿责任限制的法律适用

由于各国关于海事赔偿责任限制的法律规定不一样,因此,在涉外海事赔偿责任限制法律关系中就需要进行法律选择,以确定所应适用的法律。国际社会关于海事赔偿责任限制的法律适用主要有适用法院地法、适用侵权行为地法、适用船旗国法、适用最密切联系原则几种立法模式,中国《海商法》关于海事赔偿责任限制的法律适用宜规定为:海事赔偿责任限制适用船旗国法,若海事赔偿责任限制与其他国家的法律有更密切联系,则适用其他国家的法律。     

同步发电机参数辨识的相关方法探讨

随着电网安全及稳定运行问题的重要性日益突出,基于获得准确的系统模型和参数辨识方法,优化同步发电机相关参数将是十分有意义的。本文针对当今几种比较典型的参数辨识方法做了系统的介绍,通过比较得出何种方法对于同步电机的参数辨识是最适合的。     

和谐社会视角下的资源节约型社会建设

和谐社会实质上就是几大和谐关系的统一与人的全面发展。人的全面发展最终取决于人与自然的关系。建设资源节约型社会,可以促进人与自然的更加和谐。通过明确资源节约型社会的思想方向,奠定资源节约型社会的文化基础,完善资源节约型社会的制度支撑,实现资源节约,促进社会和谐。     

Distribution of suspended sediment in the coastal sea off the Ganges–Brahmaputra River mouth: observation from TM data

Remote sensing technique was applied to estimate suspended sediment concentration (SSC) and to understand transportation, distribution and deposition of suspended sediment in the estuary and throughout the coastal sea, off the Ganges–Brahmaputra River mouth. During low river discharge period, zone of turbidity maximum is inferred in the estuary near the shore. SSC map shows that maximum SSC reaches 1050 mg/l in this period. Magnitude of SSC is mainly owing to resuspension of the bottom surface sediments induced by tidal currents flowing over shallow water depths. The influence of depth on resuspension is farther revealed from the distribution and magnitude of SSC along the head of Swatch of No Ground (SNG) submarine canyon. During high river discharge period, huge river outflow pushed the salt wedge and flashes away the suspended sediments in the coastal sea off the river mouth. Zone of turbidity maximum is inferred in the coastal water approximately within 5–10 m depth of water, where the maximum SSC reaches 1700 mg/l. In this period, huge fluvial input of the suspended sediments including the resuspended bottom sediments and the particles remaining in suspension for longer period of time since their initial entry control mainly the magnitude of SSC. In the estuary near the shore, seasonal variation in the magnitude of SSC is not evident. In the coastal sea (>5 m water depth), seasonal influence in the magnitude of SSC could be concluded from the discrepancy between SSC values of two different seasons. Transportation and deposition of suspended sediments also experiences seasonal variations. At present, suspended sediments are being accumulated on the shallow shelf (between 5 and 10 m water depth) in low discharge period and on the mid-shelf (between 10 and 75 m water depth) during high discharge period. An empirical (exponential) relationship was found between gradual settle down of suspended sediments in the coastal sea and its lateral distance from the turbidity maximum.