Modeling traffic barriers crash severity by considering the effect of traffic barrier dimensions

Traffic barriers are in widespread all around the USA as safety countermeasures for reducing the severity of run-off-road crashes. The effect of traffic barriers’ dimension had been ignored in past real-world crash studies due to the considerable cost and time needed for collecting field data. This paper presented two new analytical models to investigate the effect of different variables on the severity of crashes involving traffic barriers, and end treatments. For this reason, a field survey was conducted on over 1.3 million linear feet of traffic barriers (approximately 4,176 miles road) in Wyoming to measure traffic barriers’ geometric features like height, length, offset, and slope rate. The collected data included 55% of all non-interstate roads of Wyoming. Based on results, the crashes involving box beam barriers were less severe than the crashes involved with W-beam or concrete barriers. The traffic barriers with a height between 28 and 31 in. were found safer than the traffic barriers shorter than 28 in., while there was no significant difference between the traffic barriers taller than 31 in. to those shorter than 28 in. in terms of crash severity. The end treatments located nearer to the traffic lane had lower crash severity.

How Do Water Filled Traffic Barriers Shake a Suspension Bridge?

The present study stems from the realization that the general problem relating to the analysis of wind-induced vibrations in suspension bridges still requires significant attention.Sidewalk railings,overhaul tracks,and deflectors are known to largely affect such dynamics.Here,the influence of a row of water-filled traffic barriers on the response of a sample suspension bridge is investigated numerically.It is shown that the existence of water barriers causes flow separation and non-negligible vortices with respect to the condition with no water barriers.The vortex shedding frequency at the far end is around 41.30 Hz,relatively close to the real vibration frequency.It is also shown how different incoming angles of attack can change the flow field around the bridge cross-section and the vortex detachment frequency.

Investigating the relationship between crash severity,traffic barrier type,and vehicle type in crashes involving traffic barrier

Roadside safety is one of the important components of highway systems due to its considerable rate of high-severity crashes.Traffic barriers play a key role in reducing the crash severity and saving more lives on roadsides but choosing an inappropriate traffic barrier could decrease traffic barriers’efficiency.This paper investigated the variables affecting crash severity in different traffic barrier types(cable,guardrail,and rigid)and vehicle types(truck,and non-truck).For this purpose,an ordinal logistic regression approach was conducted on the crash data collected between 2007 and 2016 in Wyoming.According to the results,different traffic barrier types show different relationships to crash severity based on posted speed limit at the site.In guardrail segments,a high-severity crash is more likely when the posted speed limit is more than 55 mph;however,cable barrier crashes were less severe in high-speed limit(>55 mph)areas.While light vehicles were more vulnerable to crashes hitting rigid barriers,no significant difference was found between performances of cable and rigid barriers in terms of truck crash severity.The analytical models proposed in this study would make a clear view for designers and decision-makers in selecting the most appropriate traffic barrier.Also,the effective factors introduced in each model could be used to rank the risk posed by existing traffic barrier segments based on traffic barrier type,truck volume percentage,and other highway characteristics.

基于Ring-Barrier相位的交叉口车道功能判分与信号配时协同优化模型

为了最大限度地利用交叉口的时空资源,以Ring-Barrier相位模式为基础,建立了交叉口信号配时与进口车道功能划分协同优化的数学模型.该模型是一个常规的整数非线性规划模型,目标函数是整个信号交叉口的车均延误最小,连续变量包括周期时长和各相位的绿灯时长,整数变量是交叉口各个进口处不同转向运动的车道数量.根据该模型的特点,给出了分支定界的解法.选取南京市一个交通繁忙的信号交叉口进行实地调查,采集了信号配时和车道功能划分等相关数据,并采用VISSIM仿真软件对该路口的优化效果进行评价.结果表明,相比常规的优化模型,该协同优化模型可以将交叉口的车均延误减少20.01%,周期时长缩短18.15%.

高速公路旁校园建筑立面声屏障设计

传统声屏障外观在降噪改造中往往显得突兀而单调,难以融入周边环境,有必要将建筑形式和景观需求相结合对声屏障形式进行一定设计。以广州市一高速公路旁某中小学为例,对校园室内外声环境现状进行实测分析,运用SoundPLAN软件对校园声环境现状进行模拟。在满足降噪效果的基础上,结合建筑立面形式和景观要求设计了3种立面声屏障,并利用Odeon Combined软件对不同设计形式的屏障进行模拟,探究其对教室内声环境的改善效果。研究表明,在门窗全开的情况下,不同形式的屏障降噪效果在5~9 dB(A)之间,对教室内语言传输指数(Speech Transmission Index,STI)的提升效果在0.09~0.15之间,能较好地缓解教室内声环境现状。

混凝土护栏坡面参数对防护车辆撞击作用的影响

为研究混凝土护栏坡面参数对其防护车辆撞击作用的影响,建立车辆与护栏仿真模型,并利用实车试验数据验证模型有效性,采用经过验证的仿真模型,分别对不同坡度单坡面混凝土护栏、不同坡面参数组合改进型混凝土护栏以及加强型混凝土护栏阻爬坎功能进行碰撞分析,结果表明:坡度是影响单坡面护栏防护性能的关键参数,坡度偏小或者偏大均不能为车辆提供有效保护,在标准值80°参数条件下护栏综合防护性能相对较优;改进型护栏的斜面倾斜角度(α与β)、竖直方向高度(a、b及c)以及倾斜面宽度s是影响其防护性能的关键参数,在标准改进型坡面参数条件下,即α=84°、β=55°、s=12.5 cm、b=18 cm及c=7.5 cm时,护栏的综合防护性能相对较优;阻爬坎对于改进型护栏防护性能的提升作用不大,但与新泽西护栏组合后,护栏对于防车辆侧翻效果明显。

Study on Design and Application of Plant Acoustic Barrier along Highway

Through analysis on characteristic of highway traffic noise and pollution-treating and noise-reducing mechanism,the paper had illustrated feasibility and advantage to reduce traffic noise along highway by making use of plant acoustic barrier,introduced design model and methods of plant acoustic barrier,and principles and scope for plants' selection.On this basis,by taking K37+100-K37+250 section of Yunnan Chuda Highway for example,application of plant acoustic barrier had been studied,general situation and design schemes of pilot project analyzed,and some matters needing attention proposed.Based on the analysis of a large amount of statistical data and researches on pilot project of noise-reducing by plants along Yunnan Chuda Highway,it hoped to provide reference for similar engineering projects.

混凝土护栏高度影响防护性能机理研究

为了研究混凝土护栏高度影响防护性能的机理,采用经实车碰撞试验校核的高精度车辆碰撞护栏仿真模型,针对SA级和SS级带阻爬坎的F型坡面混凝土护栏以及单坡面混凝土护栏,进行小型客车、大型客车和大型货车3种车型碰撞护栏数值仿真模拟,对比护栏高度降低和标准护栏高度时护栏防护性能指标的差别。研究结果表明,对于带阻爬坎的F型坡面混凝土护栏,由于各种车型车体结构和特征几何参数等的差异,与阻爬坎碰撞接触作用效果不同,护栏高度降低后对防护性能的影响也有所区别,特别是SS级混凝土护栏,护栏高度降低后对大型货车设计防护车型的防护效果更优;对于单坡面混凝土护栏,总体而言护栏高度降低后防护效果更不利,但对护栏导向功能未产生不利影响。

混凝土护栏有效高度对防护性能的影响

为研究混凝土护栏有效高度对其防护性能影响,建立车辆与护栏仿真模型,利用实车试验数据验证模型的有效性,采用经过验证的仿真模型,分别对不同高度的单坡面混凝土护栏、新泽西坡面混凝土护栏、F型坡面混凝土护栏、加强型坡面混凝土护栏进行碰撞分析。结果表明:在1.5 t小客车100 km/h、25 t大客车85 km/h、55 t拖头车65 km/h以20°夹角碰撞条件下,从碰撞后车辆运行姿态结果来看,护栏高度降低至0.4~0.5 m后,小客车碰撞四种坡面形式的护栏时均出现明显爬高和侧翻趋势;护栏高度降低至0.9 m时大客车碰撞四种坡面形式的护栏后均处于近乎侧翻状态,继续降低后大客车均发生翻车;护栏高度降低至1.1 m时,鞍式列车碰撞新泽西坡面形式的护栏后近乎侧翻,高度继续降低后车辆发生翻车;四种坡面形式的混凝土护栏中,不同车辆碰撞新泽西坡面时爬升现象最为明显,大型车辆甩尾后车体侧倾值较大。

公路项目环境影响评价中声屏障尺寸研究

通过对线源设置声屏障后插入损失的计算方法的研究,明确了公路项目设计降噪目标值的确定方法,推导出了声屏障尺寸计算公式,并通过实例进行了验算,计算结果与现行规范具有较好的适用性,可以作为环境影响评价过程中确定声屏障尺寸的依据。

南昌轨道交通4号线声屏障二期工程交通疏解设计

以南昌市轨道交通4号线高架段声屏障二期工程为例,采用现场实际调研、数据分析的方法,对现状市政道路情况及服务水平进行调研。在此基础上设置施工围挡、布置高架下方道路、完善配套措施、细化车辆绕行方案,因地制宜采取措施,通过道路V/C指标的对比,验证了该设计方案能满足工程的交通疏解要求。

经济结构性潜能视角下城市群与企业供应链效率的实证研究

供应链畅通是打造双循环新发展格局、实现经济高质量发展的重要保证。城镇化进程的深入使得经济结构性潜能的释放越来越多地体现在城市群层级水平,城市群如何赋能企业以提升供应链效率是经济高质量发展的重要保障。本文在传统经济发展框架中引入空间因素,基于新经济地理理论,利用国务院对国家级城市群的批复所产生的准自然实验情境,探讨2010—2019年城市群获批对企业供应链效率的影响关系和作用机制。双重差分法的检验结果表明,城市群获批后实现了空间结构优化,提高了企业的供应链效率,并且其推动作用呈现逐渐增强趋势。这种正向作用机制来源于城市群获批后释放了经济结构性潜能,主要体现在削弱了交通壁垒和行政壁垒,从而降低企业成本。进一步研究发现,城市群获批对企业供应链的信息流效率和物流效率均具有促进作用,但降低了上游企业的资金流效率。研究结论有助于规划和完善企业发展的空间结构配置。

Impact of Noise Barriers on Air-Pollution Dispersion

The impact of noise barriers on gaseous air-pollution dispersion was examined using the high-resolution CLMM (Charles University LES (Large Eddy Simulation) Microscale Model). The dispersion of a mixture of nitrogen oxides (denoted as NOx—a mix of NO and NO2) was computed, providing the simulation in which wind direction is approximately perpendicular to the noise barriers. The barriers were assumed to be straight and infinitely long, with a height of 3 m. Dispersion of NOx was modeled for situations with no noise barriers along the highway, barriers on both sides, and for a single barrier on the upwind and downwind sides of the highway. The modelling results are presented and discussed in relation to previous studies and the implications of the results are considered for pollution barriers along highways.

公路交叉口交通工程设施优化设计研究

针对公路交叉口交通事故频发的问题,为降低交通事故发生率,该文从交通设施优化设计角度对公路交通安全进行提升和改善。在满足我国现行标准的条件下,通过对公路交叉口的车道、控制方式、交通标志参数等进行优化,改善交通标志支撑方式、视认模型,采用定量分析法分析交叉口改线、隔离设施及交通标志的优化设计要点,结果表明:交叉口采用十字交叉或设置平交渠化岛并设左转车道,可以提升交叉口安全性能;隔离栅高度采用1.5~2 m,采用锌铝合金镀层等防腐措施,可以提升交通设施的使用效果;交通提醒标志采用白底黑字,可以警示驾驶员,减少交通事故发生率。说明对交叉口交通设施进行优化设计,可以有效提升公路交通安全等级,减低事故发生率,同时还能够提升公路服务及道路景观质量。

宜宾临港长江大桥总体设计

研究目的:宜宾临港长江大桥位于宜宾市临港区瞌睡坝附近,是新建川南城际铁路、渝昆高铁、宜宾市规划市政道路的共用过江通道。为节约通道资源、减小拆迁和用地,大桥采用公铁平层布置斜拉桥。本文就宜宾临港长江桥桥位、梁型、设计、施工等方面开展研究。研究结论:(1)跨河桥梁的桥位和跨度受河道、通航、行洪、鱼保等方面因素影响综合确定;(2)在满足功能要求、技术标准的前提下,公铁合建桥梁的结构形式应从技术、经济指标、施工、景观、引道疏解等方面综合比选;(3)公铁合建桥梁各线间,线路与公路的相对位置,以及公铁行车的相互影响是设计应重点关注点;(4)施工方案应结合地形、运输条件、桥梁方案综合确定;(5)本研究成果可应用于铁路大跨斜拉桥及公铁同层桥梁设计。

智能网联环境下分流区卡车编队交通影响与控制策略

为缓解智能网联环境下分流区的大车屏障效应,构建了符合分流特性的变道模型,分析了卡车比例、直行车辆进入概率、分流车辆进入概率、车头时距与编队规模对大车屏障效应的影响.将变道控制策略和编队规模限制策略相结合,提出并评估了卡车编队控制策略(TPCS).结果表明,卡车比例、直行车辆进入概率与分流车辆进入概率的不同组合是大车屏障效应产生的宏观条件.在微观层面,5辆及以上卡车以不超过2 s的车头时距编队行驶是大车屏障效应产生的临界条件.相较于编队状态与非编队状态,TPCS可分别将出口匝道流量提高60%和43%.因此,满足大车屏障效应的产生条件时,交通管理者可实施TPCS缓解大车屏障效应.

高速公路工作宽度受限护栏的设计与应用

为了解决部分高速公路护栏工作宽度受限问题、安全防护问题、景观设计问题,依据研究经验、理论分析数据、仿真模拟结果,提出了一种A级和一种SB级梁柱式钢护栏设计方案。按照《公路护栏安全性能评价标准》的规定,采用实车足尺碰撞试验对这2种护栏的安全性能进行评价。试验结果表明:设计的2种护栏的拦截功能、导向功能、缓冲功能均满足要求,在应用中可成功防护事故车辆,取得了良好的应用效果。

基于Cadna/A软件的城市高架道路噪声模拟预测及防治

运用Cadna/A软件,针对高架道路与声环境保护目标水平距离不同、设计速度不同、路面材料不同以及声屏障形式不同等方案设计阶段的不同情况,预测高架道路交通噪声对沿线声环境保护目标的噪声贡献值,分析其变化规律,并提出相应的噪声防治措施,以减小高架道路建设对沿线带来的交通噪声污染。

噪声预测软件在声屏障设计中的应用

随着道路车流量增多,交通噪声对人居环境的影响日益严重。本文以深圳市某快速路声屏障改造工程为例,利用SoundPLAN噪声预测软件研究了不同折板角度声屏障降噪效果,为道路声屏障深化设计提供技术支撑。

住宅建筑的降噪措施及效果研究

为了减少城市噪声对室内人员工作、学习和生活的影响,提出了一种新型的建筑室内降噪措施,将窗帘换成一种新型双层隔声屏障,并在房间四周墙面贴附吸声板。通过改造前后室内平均噪声强度和各频段噪声强度的对比发现,所提出的改造措施在白天能够使室内平均噪声强度降低7~8 dB,使室内达到了国家标准所要求的平均噪声范围。同时发现单独加装墙壁吸声板或吸声屏障能够使室内平均噪声强度下降2~3 dB,而单独加装隔声屏障能够使室内平均噪声强度下降3~5 dB,降噪效果相对较好。聚酯纤维材料在中频率段(200~2 500 Hz)和高频率段(2 500 Hz以上)的降噪效果较好,PVC透明软板材料在中频率段(200~2 500 Hz)的降噪效果较好,上述材料对于低频率段(200 Hz以下)的噪声几乎没有降噪效果。