城市公共交通多元票制初探

借鉴国外先进经验,引进多元化公交票制是国内推进公交优先发展的重要措施.多元票制,即将乘客进行科学的分类,根据乘客的出行需求,设置不同种类的车票,以提高公交吸引力.就国内公交发展现状来看,换乘优惠的票制改革是推广多元票制的最佳切入点.     

城市公交车身轻量化分析与设计

作为城市枢纽的公交车,采用纯电动技术可作为降低城市环境污染、减少能源消耗的切入点。目前续驶里程短是制约纯电动公交发展的主要因素。可以通过增加动力电池的电量或者对整车进行轻量化来增加续驶里程。在轻量化设计方面,对高强钢、铝合金、镁合金、工程塑料和碳纤维等几种轻量化材料进行对比分析,从中选出目前较为合适的铝合金材料。通过理论计算与设计,再通过有限元分析手段进行验证,设计出合理的车身骨架用型材截面以及连接结构。实现减重的同时保证车身结构可靠性,同时通过全生命周期中成本评估对比,发现铝合金车身可以实现降本。     

城市轨道交通车辆基地站场勘测内容和方法研究

车辆基地是城市轨道交通系统的重要组成部分,针对目前车辆基地勘测设计过程中普遍重设计轻勘测、缺乏系统的站场勘测内容与方法的现状,通过对行业、企业相关勘测规范的理解和归纳,结合自己勘测设计实践,系统论述车辆基地站场勘测内容和方法,主要包括车辆基地基线的测设和应用、地形测量、站场横断面测绘、专项调查与测绘等几方面,掌握车辆基地站场勘测内容和方法将为车辆基地设计与施工、节约用地、降低投资等方面发挥重要的作用。     

城市群客流生成预测精度控制模型研究

城市群客流生成预测是城市群轨道交通规划中客流预测的主要组成部分,其预测精度将直接影响轨道交通客流预测精度,进而影响轨道交通规划的合理性.在分析城市群客流生成特点的基础上,提出客流生成阶段预测精度控制分为小区划分精度控制、预测方法选择、建模精度控制及模型计算结果调整4个阶段的思路;详细论述后2个阶段的精度控制内容,在模型计算结果调整中提出区域对外交通调整、空间调整、发生总量平衡调整及发生吸引平衡调整4个调整内容,并建立调整模型.     

城市群双线客流分布预测方法研究

鉴于城市群客流预测在城市群轨道交通规划中的重要性,为提高其预测精度,对城市群客流预测中的分布预测方法进行研究.分析现实能够收集到的资料及城市群交通分布的特点,提出城市群双线分布预测方法.在城市群资料有限的情况下,研究如何得到城市群分布的预测结果;阐述分布预测的计算方法,建立相关的计算模型,对几种常用的分布预测模型进行优缺点及适用性分析.     

城市绿色交通建设与发展策略综述

绿色交通系统对改善城市交通拥堵,减少交通能耗、环境污染,提高城市的宜居性等方面有着积极的推动作用。文章从城市规划和土地利用开发、交通需求管理、交通基础设施建设等方面阐述了城市绿色交通的建设与发展策略,为发展、建设城市绿色交通提供思路。     

城市交通系统通行性影响因素及计算理论

文章分析了震后城市交通系统通行性的影响因素,提出了包含路段单元通行概率、路段连通概率及路网连通概率的城市交通系统通行性计算理论,为城市路网的连通可靠性评价提供参考。     

Discussions on rail in urban areas and rail history

This paper includes discussions on rail in urban areas and railway history. More specifically commonly used terms and definitions for rail services, policy and practice in urban areas are discussed followed by an overview of railway developments around the world.     

The design of a terminal for dangerous goods

This paper aims at examining the possibility of setting up a model terminal for the transportation of dangerous goods. It should be designed in such a manner that its use would be possible for any kind of transportation.

This consideration has been prompted by the interface between transportation planning and technology, as well as by the tendency for harmonizing international recommendations pertaining to the transportation and handling of dangerous goods, especially during the last decades where unified transport has gained ground due to the advantages provided for the safe consignment of dangerous cargoes.

Since the large increase in terminal productivity is due to the heavy investments that were effected in terminal installations and to the modernization of the administration‐management of terminals, a mathematical simulation has been adopted to assist the determination of the capacity of a terminal for dangerous goods.

It is evident that different criteria and various assumptions have been taken into account in order to facilitate a deeper analysis, without ignoring the contribution of dangerous goods to the socio‐economic development.

From the outset of the study, it was already clear that the said process will make it possible to present—as a model—a simple but well defined situation for the purpose of drawing useful conclusions.