Superpave-13沥青混合料高温稳定性分析

文章结合天水过境高速公路路面实体工程,对不同孔隙率条件下的Super-pave-13高性能沥青混合料进行了车辙试验及SPT试验分析。结果表明,要保证Superpave-13沥青混合料具有较好的高温稳定性,其压实孔隙率应控制在4%～6.5%范围内。     

U型桥台开裂原因分析及加固方案探讨

文章结合高速公路U型桥台开裂的典型工程实例,分析了U型桥台裂缝产生的原因,提出了相应的加固处治方案,并阐述了加固方案的实施要点与处治效果。     

基于Midas Civil的简易车桥耦合振动分析

文章以某40m预应力混凝土简支T梁为例,利用单轴车桥耦合振动数值模型及基于MidasCivil的简易车桥耦合振动模型对移动车辆荷载作用下的T梁结构动力响应情况进行计算分析。结果表明,基于MidasCivil的简易车桥耦合振动模型与数值模型的结构挠度峰值计算结果相差不大,可用于简单的车桥耦合振动分析。     

特大桥施工测量精度浅析

文章以兰渝铁路嘉陵江双线特大桥为工程背景,在介绍施工测量平面控制网的基础上,阐述了桥梁施工测量放样的精度要求及具体控制措施,分析了测量误差产生的原因,并提出了相应的测量精度评定方法。     

A field evaluation case study of the environmental and energy impacts of traffic calming

This study quantifies the energy and environmental impact of a selection of traffic calming measures using a combination of second-by-second floating-car global positioning system data and microscopic energy and emission models. It finds that traffic calming may result in negative impacts on vehicle fuel consumption and emission rates if drivers exert aggressive acceleration levels to speed up to their journeys. Consequently by eliminating sharp acceleration maneuvers significant savings in vehicle fuel consumption and emission rates are achievable through driver education. The study also demonstrates that high emitting vehicles produce CO emissions that are up to 25 times higher than normal vehicle emission levels while low emitting vehicles produce emissions that are 15–35% of normal vehicles. The relative increases in vehicle fuel consumption and emission levels associated with the sample traffic calming measures are consistent and similar for normal, low, and high emitting vehicles.     

隧道围岩体内位移监测分析

隧道围岩体内位移监测结论对于判断围岩稳定性和保证施工安全与工程质量起着重要的作用。文章以一高速公路隧道为依托,介绍了围岩体内位移测量设备和工作原理,并通过对其围岩体内位移检测数据的分析,提出了隧道围岩体内位移监测的注意事项。     

百色-罗村口高速公路百康村滑坡稳定性分析

文章结合百色-罗村口高速公路百康村滑坡区的工程地质概况,分析了百康村滑坡的形成机理,并采用传递系数法对滑坡的稳定性进行了探讨,提出了相应的综合处治方案。     

渔船操纵性指数K、T的统计分析

船舶操纵性指数是描述船舶操纵性能的重要指标。现对11条渔船根据试验结果得到的K、T指数进行统计分析，得到了各种参数的影响规模，在此基础上，给出渔船操纵性能指数的估算公式。     

浅谈高速公路桥头跳车的因素及预防措施

桥头跳车一直是高速公路投入使用后普遍存在的问题,本文通过查阅各种资料及本人施工经验,归纳总结了桥头跳车问题产生的原因,提出了桥头跳车问题的预防措施,以便为今后类似工程的施工提供参考。     

Energy-aware control for automated container terminals using integrated flow shop scheduling and optimal control

The performance of container terminals needs to be improved to handle the growth of transported containers and maintain port sustainability. This paper provides a methodology for improving the handling capacity of an automated container terminal in an energy-efficient way. The behavior of a container terminal is considered as consisting of a higher level and a lower level represented by discrete-event dynamics and continuous-time dynamics, respectively. These dynamics represent the behavior of a large number of terminal equipment. The dynamics need to be controlled. For controlling the higher level dynamics, a minimal makespan problem is solved. For this, the minimal time required by equipment for performing an operation at the lower level is needed. The minimal time for performing an operation at the lower level is obtained using Pontryagin’s Minimum Principle. The actual operation time allowed by the higher level for processing an operation at the lower level is subsequently determined by a scheduling algorithm at the higher level. Given an actual operation time, the lower level dynamics are controlled using optimal control to achieve minimal energy consumption while respecting the time constraint. Simulation studies illustrate how energy-efficient management of equipment for the minimal makespan could be obtained using the proposed methodology.