一种分析线天线互耦的新方法

天线之间的耦合影响是短波通信台站建设中必须考虑的一个重要因素，采用SuperNEC（Super Numerical Electmmagnetics Code）线数值计算软件与微波网络理论相结合的方法分析了短波线天线之问的耦合影响。该方法先将多天线系统等效为微波网络，然后通过SuperNEC仿真软件得出天线分布电流并计算出等效网络的导纳矩阵Y，利用该导纳矩阵Y就可得到天线之间的耦合度。分析证明该方法理论正确。并且对多天线的安装布局有重要的指导作用。     

真空污水系统在51800 DWT成品油船上的应用

本文介绍了51800DWT成品油船上建区真空污水系统的应用及真空管路的设计情况。     

岩溶地区钻孔桩基础施工疑难处理措施

针对岩溶地区桥梁钻孔桩基础施工中因地质因素复杂所带来的施工困难,总结了以往所遇到的岩溶不良地质条件和施工经验,指出了可能出现施工故障的岩溶地质特性,并提出了相应的施工处理方法和施工注意事项。     

上海虹桥枢纽配套交通规划研究

对大型交通枢纽的概念进行了阐述，研究了其配套交通规划的原则、内容以及规划步骤。以上海虹桥综合交通枢纽的实例，在对现状路网分析和交通需求预测的基础上对其配套路网规划与设计、进出交通组织进行了详细的研究，并提出规划方案。规划布局总体概括为“一环二射”。经分析该规划达到了“快速疏解，外用专线，路网均衡、多点选择”等目标，能在很大程度上缓解外环两侧的交通拥堵状况。     

收费系统防作弊问题研究

对目前收费方式下的各种作弊行为进行分析,通过增加车辆分离器、车型分类器、车牌照识别器及按位比较权系数法等设备及技术,有效解决收费作弊问题。     

浅议施工企业成本管理

介绍了成本管理对施工企业的重要性,以及存在的问题,并提出了改进的措施。     

美国铁路调度集中系统对我国铁路发展CTC的启示

通过对美国柏林顿北方圣菲及诺福克南方两家铁路公司的考察,阐述了美国铁路公司调度指挥机构设置及调度指挥管理模式,以及美国铁路调度集中系统的主要特点,提出美国铁路调度集中系统对我国铁路发展调度集中系统的几点启示.     

沥青路面就地热回收微波技术的探讨

介绍了沥青路面现场加热回收的几种方式．并进行一定的探讨与比较，特别是对微波技术的应用进行了分析。     

水下抢修作业船并联对接装置方案研究

本文介绍了一种用于水下抢修的新型对接装置方案的基本功能和工作原理，并提出了机械本体和控制系统的设计方案，给出了装置的力学模型，为下步工程样机的研制打下基础。     

Using a random displacement model to simulate turbulent particle motion in a baroclinic frontal zone: A new implementation scheme and model performance tests

Numerical artifacts can limit accurate simulation of turbulent particle motion when Lagrangian particle-tracking models are implemented in hydrodynamic models with stratified conditions like fronts. Yet, modeling of individual particle motion in frontal regions is critical for understanding sediment dynamics as well as the transport and retention of planktonic organisms. The objective of this research was to develop a numerical technique to accurately simulate turbulent particle motions in a particle-tracking model embedded within a hydrodynamic model of a frontal zone. A new interpolation scheme, the ‘water column profile’ scheme, was developed and used to implement a random displacement model for turbulent particle motions. A new interpolation scheme was necessary because linear interpolation schemes caused artificial aggregation of particles where abrupt changes in vertical diffusivity occurred. The new ‘water column profile’ scheme was used to fit a continuous function (a tension spline) to a smoothed profile of vertical diffusivities at the x–y particle location. The new implementation scheme was checked for artifacts and compared with a standard random walk model using (1) Well Mixed Condition tests, and (2) dye-release experiments. The Well Mixed Condition tests confirmed that the use of the ‘water column profile’ interpolation scheme for implementing the random displacement model significantly reduced numerical artifacts. In dye-release experiments, high concentrations of Eulerian tracer and Lagrangian particles were released at the same location up-estuary of the salt front and tracked for 4 days. After small differences in initial dispersal rates, tracer and particle distributions remained highly correlated (r = 0.84 to 0.99) when a random displacement model was implemented in the particle-tracking model. In contrast, correlation coefficients were substantially lower (r = 0.07 to 0.58) when a random walk model was implemented. In general, model performance tests indicated that the ‘water column interpolation’ scheme was an effective technique for implementing a random displacement model within a hydrodynamic model, and both could be used to accurately simulate diffusion in a highly baroclinic frontal region. The new implementation scheme has the potential to be a useful tool for investigating the influence of hydrodynamic variability on the transport of sediment particles and planktonic organisms in frontal zones.