预应力混凝土箱梁桥横向受力分析方法的研究比较

以洋安大桥主桥5跨预应力混凝土变截面连续箱梁桥为背景,对其横向应力分别采用传统的平面框架法和空间有限元法进行分析比较,结果表明大部分关键截面平面框架法得到的横向应力远大于空间有限元法,在实际设计计算中须谨慎使用平面框架法。     

岩土锚固力的确定及应用

选定粤赣高速公路有代表性的6种岩层,对其全、强、弱风化层组成的路堑高边坡锚索加固工程进行了69次破坏性拉拔试验。试验中对每种不同风化程度的岩(土)层采用锚固长度为1m、2m、3m的现场拉拔试验,计算出锚索加固边坡的锚固力值,为验证高边坡工程设计提供了准确的力学参数,也为全线高边坡工程的施工工艺提供指导性意见。同时,节省了大量的试验费用和时间,获得了显著的经济效益。     

抗滑桩在滑坡处理中的应用

结合某国道滑坡情况,根据其具体的工程地质和水文情况,提出了采用抗滑桩的处理方案。根据滑坡推力计算,确定抗滑桩的尺寸及位置,提出了施工过程动态监测和完工后长期监测的方案。     

缓波型非粘接柔性立管的干涉敏感性

针对非粘接柔性立管在波浪和海流作用下易发生立管干涉的问题,以我国南海某油田输油立管和相邻锚链为例,分别对拖曳力系数、管道单位长度质量、外径、内部介质密度、立管抗拉弯扭刚度和悬挂角度等参数进行敏感性分析,得出不同参数的敏感性情况,并在此基础上提出一些建议供实际工程设计参考.     

隧道爆炸冲击波的危害及控制措施

目前山岭隧道施工基本以钻爆法为主,爆破过程中产生的冲击波会对隧道内的人员及机械设备安全产生较大影响,造成重大安全事故和财产损失。本文主要介绍了冲击波在隧道内传播会形成超压,且随着传播距离增加超压峰值逐渐衰减到大气压范围内;基于超压准则评估了冲击波对人体、隧道内设施及周边建筑物的危害程度;通过在隧道内安装简易的冲击波缓冲装置及加强监测、设置安全警戒线等控制措施,减弱了爆破冲击波的危害,从而达到安全快速施工的目的。     

高速铁路轨道的波阻抗及影响因素研究

高速铁路轨道在雷击或故障冲击电流作用下会产生暂态冲击过电压,该过电压的大小由轨道的波阻抗决定。通过建立高速铁路线路的仿真模型,分析直角冲击波在轨道上的传播与折反射过程,提出轨道的波阻抗的计算方法,研究钢轨类型、土壤电阻率、钢轨对地过渡电阻对波阻抗的影响。结果表明:P60型轨道波阻抗数值为235. 55Ω;轨道的波阻抗主要受钢轨类型和土壤电阻率的影响,高速铁路轨道的波阻抗在在210～250Ω变化;在高速铁路轨道仿真模型中,线路末端电阻等于波阻抗时,可以有效地消除折反射对仿真结果的影响,末端电阻的取值不需要考虑钢轨地过渡电阻的影响。研究给出高速铁路轨道波阻抗的范围及仿真模型中末端电阻的取值方法,可以为轨道过电压计算、分析与仿真提供理论与方法参考。     

基于改进型消灭曲线法的横摇阻尼估算

自由衰减试验仍是目前最为有效且常用的估算横摇阻尼系数的方法.横摇阻尼系数的估算精度对于船舶横摇运动的预报起着至关重要的作用.通常采用所谓的消灭曲线法来分析自由横摇衰减数据.该方法的一个不足之处在于其推导是基于忽略了非线性恢复力项的自由横摇运动方程.另一方面,考虑更多非线性成分的能量法能够纳入该因素影响但在实施过程中较为复杂.文中提出了一种改进型的消灭曲线法,能够纳入船体非线性恢复力项的影响.所提出的方法形式简单且相比能量法更易于实施.数值试验证明了改进型消灭曲线法的正确性,并展现了其相对传统消灭曲线法所具有的优势.     

导管式推进器非定常性能数值计算方法研究

基于滑移网格方法，采用SST k-ω湍流模型研究不同网格划分方式对带前置定子导管式推进器非定常性能的研究。首先基于相对参考坐标系法及滑移网格方法分别对推进器在定常与非定常下的性能进行数值预报，并与试验结果相比验证计算方法的可靠性。基于该方法研究整体网格划分方式与周期性网格对推力系数、扭矩系数与推进器各个方向上的非定常脉动力的影响。研究结果为进一步研究推进器非定常性能提供了参考。     

Estimation of extreme significant wave heights and the associated uncertainties: A case study using NORA10 hindcast data for the Barents Sea

The reliability of an offshore structure is dependent on its response to the extreme wave climate; therefore, an adequate knowledge of the wave climate at a location is a prerequisite during design as well as in marine operations. This study aims to contribute to the knowledge of the extreme wave climate in the Norwegian Sector of the Barents Sea, using wave hindcast datasets from the Norwegian Reanalysis 10 km (NORA10) database for four locations.We have considered three commonly used methods for the estimation of extreme wave heights, that is, the initial distribution method, the peak over threshold method, and the annual maxima method. The parametric bootstrap concept is considered in the estimation of the epistemic uncertainty related to sample size. The estimated 100-year significant wave heights obtained from the three methods differ, and the degree of variability in the estimates varies, depending on the dataset. The epistemic uncertainty due to sample size is wider when considering the annual maxima method.The estimates obtained from the three methods show the importance of considering different methods and their associated uncertainties when estimating extreme wave values for design. While it is difficult to single out the best method among the three, the estimated values give knowledge of the possible range of the extreme significant wave heights at the locations. Generally, the datasets considered in this study suggest that the wave climate is less harsh further north compared to the southern region of the Barents Sea. The datasets do not suggest any temporal trends in the historical significant wave heights at any of the locations.     

Airport capacity increase via the use of braking profiles

Many airports are encountering the problem of insufficient capacity, which is particularly severe in periods of increased traffic. A large number of elements influence airport capacity, but one of the most important is runway occupancy time. This time depends on many factors, including how the landing roll procedure is performed. The procedure usually does not include the objective to minimize the runway occupancy time. This paper presents an analysis which shows that the way of braking during landing roll has an essential impact on runway throughput and thus on airport capacity. For this purpose, the landing roll simulator (named ACPENSIM) was created. It uses Petri nets and is a convenient tool for dynamic analysis of aircraft movement on the runway with given input parameters and a predetermined runway exit. Simulation experiments allowed to create a set of nominal braking profiles that have different objective functions: minimizing the runway occupancy time, minimizing noise, minimizing tire wear, maximizing passenger comfort and maximizing airport capacity as a whole. The experiments show that there is great potential to increase airport capacity by optimizing the braking procedure. It has been shown that by using the proposed braking profiles it is possible to reduce the runway occupancy time even by 50%.