地铁曲线车站站台建筑限界计算研讨

对地铁地下曲线车站站台建筑限界计算,特别是地下曲线车站站台边缘至车辆轮廓线间允许间隔的检算方法,以及困难条件下站台边缘曲线半径和线路平面曲线半径设计问题进行研讨,并提出在困难条件下,曲线车站站台边缘曲线按与线路曲线同心圆设计,可采用较小的线路曲线半径,以节省工程投资的建议.     

国土空间规划背景下的北京城市交通体检评估

为了确保城市总体规划的落实,城市体检机制应运而生.在国土空间规划的新形势下,北京城市交通体检面临着新的要求.从规划实施过程把控、全市域规划实施情况、交通系统全周期实施情况三个角度分析交通体检的挑战与机遇.根据北京城市交通体检的实践情况,总结城市体检工作的组织模式和交通体检主要内容.最后,从多源数据持续监控交通系统、固定...     

进气道滚流比对发动机充气模型精度影响的试验研究

进气道结构是决定发动机缸内气体滚流强度的主要因素。针对一款直列四缸1.2 L增压直喷、DVVT汽油机,通过试验的方法,研究了发动机不同转速、负荷工况下,进气道滚流比参数对发动机进气状态和燃烧过程的影响,并对比了不同滚流比情况下的汽油机充气模型精度。研究结果表明,进气道滚流比对发动机的进气状态有显著影响。针对相同的ECU标定数据,滚流比的改变会造成充气模型精度较为明显的偏差。     

润滑机理对汽车发动机性能的影响综述

发动机作为汽车中最为复杂精密的机电一体部件,长时间处于高温、高压、高磨损运行工况,且需要满足长寿命、高效率、低能耗、强动力、低污染等一系列标准指标,而汽车发动机运转时零件间的摩擦以及燃烧等产生的颗粒都会对其性能造成恶劣影响,所以润滑对于发动机性能提升尤为重要。综述当前汽车发动机润滑机理,分析润滑油在使用过程中对发动机动力、油耗和排放的影响,并且在最后设想一种新的润滑机理,以弥补发动机的制造缺陷和颗粒的影响,改善汽车发动机的关键性能。     

机械式变速箱传动效率实验研究分析

传动效率是机汽车变速箱传动效率是直接反映变速箱设计、制造水平的一项重要参数。文章对汽车变速箱传动效率测量影响因素、测试方法、及数据处理方面进行探讨,并结合实际测试工作中的经验总结了一些实际应用方法及对此参数的影响因素,藉此对机械式变速器效率测量精度提高方面起到参考及指导作用。     

含缺陷管道悬空状态下的有限元建模

地质灾害情况下,管道容易产生大变形和失效,造成重大事故,因此,研究地质灾害中管道的建模与应力计算,具有重要的工程意义.通过力学与有限元的结合,利用ANSYS工程软件建立管道在悬空状态下的大变形有限元模型.为考虑土壤地基的影响,采用弹簧来模拟地基对管道的反作用.根据材料力学计算分析,得出比较合适的弹簧间距,并验证了该模型的合理性.对于含缺陷的管道,运用子模型技术进行处理.建模完成后,用一组具体的管道参数进行实例分析,利用ANSYS后处理命令计算管道上的最大应力及其应力分布.     

轴对称解对隧道衬砌水压力计算的适用性研究

文章根据渗流理论推导了隧道衬砌水压力的轴对称解,并利用数值分析方法研究了轴对称解对不同形状隧道断面与浅埋隧道的适用性.研究结果表明:轴对称解适用于非圆形隧道断面衬砌水压力的估算;隧道断面形状对衬砌水压力折减系数的影响较小,可以忽略不计,其影响大小主要由衬砌与围岩的渗透系数比值决定.对于浅埋低水头隧道,用轴对称解计算的毛洞流量Qm与数值解比较,其误差较大,最大误差为36.5％;但用来计算衬砌水压力p1以及衬砌后水流量Q1时,误差相对较小,最大误差为6.3％,特别是利用轴对称解得出的衬砌水压力值与利用数值解得出的衬砌水压力特征值最大误差仅为3.4％.     

Ridership drivers of bus rapid transit systems

We have collected information on 46 bus rapid transit (BRT) systems throughout the world to investigate the potential patronage drivers. From a large number of candidate explanatory variables (quantitative and qualitative), 11 sources of systematic variation are identified which have a statistically significant impact on daily passenger-trip numbers. These sources are fare, headway, the length of the BRT network, the number of corridors, average distance between stations; whether there is: an integrated network of routes and corridors, modal integration at BRT stations, pre-board fare collection and fare verification, quality control oversight from an independent agency, at-level boarding and alighting, as well as the location of BRT. The findings of this paper offer important insights into features of BRT systems that are positive contributors to growing patronage and hence should be taken into account in designing and planning BRT systems.     

A mixed Bayesian network for two-dimensional decision modeling of departure time and mode choice

The modeling of travel decision making has been a popular topic in transportation planning. Previous studies focused on random-utility discrete choice models and machine learning methods. This paper proposes a new modeling approach that utilizes a mixed Bayesian network (BN) for travel decision inference. The authors use a predetermined BN structure and calculate priori and posterior probability distributions of the decision alternatives based on the observed explanatory variables. As a “utility-free” decision inference method, the BN model releases the linear structure in the utility function but assumes the traffic level of service variables follow multivariate Gaussian distribution conditional on the choice variable. A real-world case study is conducted by using the regional travel survey data for a two-dimensional decision modeling of both departure time choice and travel mode choice. The results indicate that a two-dimensional mixed BN provides better accuracy than decision tree models and nested logit models. In addition, one can derive continuous elasticity with respect to each continuous explanatory variable for sensitivity analysis. This new approach addresses a research gap in probabilistic travel decision making modeling as well as two-dimensional travel decision modeling.     

On Safety in Dismantling Temporary Strut of Super-large Tunnels with Double-layer Primary Support北大核心CSCD

More and more multiple-track tunnels and super-large section tunnels have been built, and disman- tling of temporary strut is a weak point of the whole structure during force transfer when the secondary lining is con- structed. It is significant to guarantee structure safety during dismantling of temporary strut. Little systematic re- search on safety in dismantling of temporary strut of the super-large section tunnel with double-layer primary support has been conducted, so the internal force and security of the two-layer primary support of the Xinkaotang tunnel were analyzed by a numerical analysis and site measurement, and it proves the effect of two-layer primary support on the safety during strut dismantling. The research results indicate that: (1) with constant support thickness and one-time longitudinal dismantling length, the safety factor of secondary primary support is larger than that of the first primary support, and the safety factor of the first primary support is larger than that of the single-layer primary support. Change range of safety factor for the first primary support is smaller than that of the single-layer primary support, and the safe factor for the single-layer primary support is smaller than that of the secondary primary support; (2) with the same support pattern, the safety factors increase firstly and then decrease with an increase of the onetime dismantling length. The calculated results of various cases show that the reasonable one-time dismantling length for this project is about 9 m. © 2018, Editorial Office of "Modern Tunnelling Technology". All right reserved.