船舶总振动固有频率实用算法

分别用一维梁有限元方法和三维有限元方法计算3艘实船总振动固有频率,对计算结果进行统计分析,提出对一维梁有限元方法计算结果的修正,利用110000t油船进行验证。用一维梁有限元方法计算时考虑剪切滞后影响系数;用三维有限元方法计算时, 是在ANSYS软件中建立全船的三维空间有限元模型,进行模态分析。通过计算证明该方法能有效改进一维梁有限元计算方法,可快速准确地预报船舶总振动固有频率。     

基于未确知测度理论的隧道施工瓦斯灾害风险评价

选取煤层厚度、煤层瓦斯含量、回风流平均瓦斯浓度、相对瓦斯涌出量、岩石类型、连通封闭性、深度值、隧道跨度、隧道长度、通风风速和涌水量等11项瓦斯灾害指标作为隧道施工瓦斯灾害风险评价指标体系,并建立各指标的等级标准.将序关系分析法(G1)和反熵权法(AEW)运用拉格朗日乘子法确定组合权重,构建各指标的单指标测度函数,并计算...     

中心城区主干路改造的设计要点探讨

中心城区主干路一般建成时间较早,随着城市化进程的加快和社会经济的发展,现状市政交通、管线已不能满足沿线用户的需求;路面出现不同程度损坏,影响了行车的安全性和舒适性;沿线各类城市市政设施缺乏统一性和规范性,严重影响了道路交通和城市周边形象,制约了城市形象的提升和进一步发展.针对中心城区主干路改造的设计要点,从道路功能定位...     

面向智慧原油管道建设的运行方案快速智能决策

为解决智慧原油管道建设实时优化的难题,从节能降耗和运行安全2个角度出发构建了以能耗和不安全系数最小为优化目标的运行方案智能决策模型;基于差分进化算法,从变异决策变量越界处理方法和离散决策变量变异算子2个算法角度提出了提高优化算法可靠性和优化效率的改进设想;结合算法计算流程和并行计算框架,提出了4种并行计算策略;以近900 km长的仪征-长岭原油管线(仪长线)作为测试管道来验证和进一步分析算法改进设想与并行计算策略。研究结果表明：结合智能决策模型和优化算法的运行方案智能决策方法可在保证管道安全运行的前提下使仪长线的能耗费用下降7.22%,节能效果明显;改进的变异决策变量越界处理方法和用于离散决策变量变异的浮点数圆整变异算子均能提高原油管道运行方案优化结果的可靠性,前者可使优化计算耗时至少缩短一半,后者可使优化计算耗时至少缩短2/3;在不同的计算机配置下,不同并行计算策略的优劣存在一定的差异,而在最优并行计算策略下,在服务器上优化计算耗时从220 s下降为10 s,加速比可达到22倍。可见,综合算法改进设想和并行计算策略的运行方案快速智能决策方法可使优化计算的加速比超过130倍,显著缩短了优化计算耗时,说明了该智能决策方法对于原油管道快速运行优化的有效性。     

驾驶人“感知-决策-操控”行为模型

为准确模拟驾驶人跟车行为,提出基于隐马尔可夫模型(Hidden Markov Model,HMM)的驾驶人“感知-决策-操控”行为模型。建立描述驾驶意愿的HMM模型,模拟驾驶人感知过程,获得期望的车间距;预测模块模拟驾驶人根据交通环境和自身生理、心理状态预测车辆未来轨迹,即决策过程;优化模块描述驾驶人为使预测的车辆轨迹跟踪上期望的车辆间距而采取的操控汽车的执行动作,即操控过程。上述3个模块的滚动过程实现了对驾驶人跟车行为的模拟。利用自然驾驶数据进行算例分析,结果表明,本文模型预测车间距平均误差仅为1.47%,证明了所建模型的有效性及准确性。本文为驾驶行为建模方法的理论研究和应用拓宽了思路。     

Greenhouse gas emissions from road construction: An assessment of alternative staging approaches

The greenhouse gas (GHG) emissions associated with road construction activities are analyzed. The main focus of this analysis is on the vehicle emissions associated with alternative project staging approaches, specifically a full closure of the road during construction, versus an intermittent road closure. The analysis includes the direct and upstream emissions associated with materials, construction equipment, mobilization of resources to the work site, and maintenance activity associated with the project over its lifetime. The analysis is based on one case study of a road project in New Jersey. The assumptions underlying the staging analysis are based on hypothetical approaches. Results provide an assessment of the main sources of project related emissions and the ability to minimize total project emissions by minimizing traffic disruption. In the analysis with a full closure of the road, traffic disruption accounts for 26% of total emissions, while with an intermittent road closure, traffic disruption accounts for only 2% of total emissions. The other main sources are from materials and life-cycle maintenance. The analysis demonstrates the feasibility of minimizing project related GHG emissions during road construction activities.     

Greenhouse gas emissions from ships in ports – Case studies in four continents

Emissions of GHG from the transport sector and how to reduce them are major challenges for policy makers. The purpose of this paper is to analyse the level of greenhouse gas (GHG) emissions from ships while in port based on annual data from Port of Gothenburg, Port of Long Beach, Port of Osaka and Sydney Ports. Port call statistics including IMO number, ship name, berth number and time spent at berth for each ship call, were provided by each participating port. The IMO numbers were used to match each port call to ship specifications from the IHS database Sea-web. All data were analysed with a model developed by the IVL Swedish Environmental Research Institute for the purpose of quantifying GHG emissions (as CO₂-equivalent) from ships in the port area. Emissions from five operational modes are summed in order to account for ship operations in the different traffic areas. The model estimates total GHG emissions of 150,000, 240,000, 97,000, and 95,000 tonnes CO₂ equivalents per year for Gothenburg, Long Beach, Osaka, and Sydney, respectively. Four important emission-reduction measures are discussed: reduced speed in fairway channels, on-shore power supply, reduced turnaround time at berth and alternative fuels. It is argued that the potential to reduce emissions in a port area depends on how often a ship revisits a port: there it in general is easier to implement measures for high-frequent liners. Ships that call 10 times or less contribute significantly to emissions in all ports.     

道路环境对交通安全的影响及对策

交通安全,涉及到人、车以及道路和环境等很多因素。近年来,因为各种原因使得有关单位以及人员将更多的将精力放在人、车、道路这几个因素上,对道路交通环境没有过多的考虑和研究。深入研究道路交通环境,有利于道路交通的安全,文章通过对其的研究和分析,得出有关道路交通环境对交通安全的影响和解决措施,对于防止道路交通安全事故具有重要意义。同时为人们的生命财产的安全提供保障、对构建社会主义和谐社会具有很大帮助。     

基于VRML的虚拟现实技术在数字管道中的应用

介绍了虚拟现实建模语言(VRML),将基于VRML的虚拟现实技术和HTML、 JavaScript相结合,并应用到数字管道中,构建了真实感强、交互性强的可视化虚拟石油管道场景和管道泄漏模型,实现了石油管道虚拟场景的漫游,以及用户与虚拟场景的交互,并及时、直观地反映管道泄漏.应用结果表明:将基于VRML的网络交互式虚拟现实技术应用到数字管道,促进了数字管道的信息共享,提高了数字管道的决策管理效率.     

负压波在管道泄漏检测与定位中的应用

文中基于负压波检测原理,对压力管道泄漏进行实时检测及定位.分别在管线上下游设置压力传感器,泄漏产生的负压波通过管道和介质自泄漏点向管线上下游传播,其压力波信号被压力传感器检测.通过分析压力传感器采集的数据,得到上下游的泄漏负压波传播速度,并结合压力传感器捕捉到的压力波波形和上下游压力传感器接收到压力波信号的时间差对泄漏点进行定位.结果表明:该方法对泄漏的判断与定位精度取决于负压波传播速度的测定精确度.