A Pareto-improving hybrid rationing and pricing policy with multiclass network equilibria

This paper extends the work on Pareto-improving hybrid rationing and pricing policy for general road networks by considering heterogeneous users with different values of time. Mathematical programming models are proposed to find a multiclass Pareto-improving pure road space rationing scheme (MPI-PR) and multiclass hybrid rationing and pricing schemes (MHPI and MHPI-S). A numerical example with a multimodal network is provided for comparing both the efficiency and equity of the three proposed policies. We discover that MHPI-S can achieve the largest reduction in total system delay, MHPI can induce the least spatial inequity and MHPI-S is a progressive policy which is appealing to policy makers. Furthermore, numerical results reveal that different classes of users react differently to the same hybrid policies and multiclass Pareto-improving hybrid schemes yield less delay reduction when compared to their single-class counterparts.     

Locating rental stations and bikeways in a public bike system

To determine the spatial distribution of rental stations and bikeways in a public bike system, this paper proposes a facility location and network design model. The model is developed as a multi-objective programing problem that considers four objectives (minimizing cyclist risk, maximizing cyclist comfort, minimizing adverse impacts on traffic and maximizing service coverage) and multiple constraints (monetary budget, network connectivity, station spacing, bikeway types, station number and value ranges of decision variables). The ε-constraint method solves the programing problem for the public bike system in Daan District, Taipei City, Taiwan. The nine non-dominated alternatives generated are all markedly better than existing locations of rental stations and bikeways. Scenario analysis results indicate that increasing the construction budget for bikeways significantly improves cyclist safety and comfort whilst increasing the adverse impact on traffic. Planners can use this model to develop public bike systems that spatially integrate rental stations and bikeway networks.     

绿色制造工艺在船舶结构中的设计及应用

造船业对于水源影响作用巨大,为了顺应社会环保的要求,船舶工程需要转变过去污染水源、浪费原材料、破坏大气等弊端,这就对船舶结构设计与船舶制造提出了较高的环保性要求,在船舶工程的设计与制造中需要充分融入绿色理念,要全面遵循环保要求,积极打造稳定性强、航速快、性能高的绿色船舶。文章首先立足于绿色船舶的概念与特点进行了分析,然后分别针对绿色船舶的结构设计和制造两个方面提出相应的实施途径,指出了在保障船舶的功能性、使用性能以及安全性能等基础的情况下,实施绿色船舶的设计与制造的重要意义。     

The Storage Space Allocation Problem at a Container Terminal

Due to the asymmetry between the time required to retrieve a container to vessel and the time required to register a container at the gate, the storage space allocation problem solves the best allocation policy of these containers that minimizes the potential number of gantry movements during the assigning process and the future retrieval process. A decision rule-based heuristic is proposed, and three properties are discovered in this research. Comprehensive numerical experiments show that the proposed heuristic can solve the real-sized instances within a second, making it possible to account for uncertainty because the re-optimization effort is negligible. Moreover, when applying the proposed heuristic to a container yard at the Port of Kaohsiung in Taiwan and considering the extreme cases, the heuristic performs even better when the number of containers increases and still requires less than 1 s to solve these extreme cases. Finally, the proposed heuristic can be applied to different layouts of storage space and various material handling machines.     

全固态锂离子电池的研究进展

本文着重介绍了固态电解质的特性,包括聚合物电解质、氧化物电解质、硫化物电解质;分析了固态电池的应用现状,指出了固态锂电池技术未来的发展趋势。     

集中排烟隧道近火源顶板热参数理论预测

由于集中排烟模式能较好地控制上下游烟气的扩散范围,故被广泛应用于长大隧道设计中。文章针对小尺度火灾,建立了集中排烟隧道火源热烟羽受限发展理论模型,与已有火灾实验结果进行对比,完成了理论模型的验证,预测了顶板下方最高烟气温升、偏移距离等热参数。预测结果表明:火灾强度一定时,烟气最大温升随等效风速增加而急剧下降,且火灾强度对烟气温升的影响也较为显著;当等效风速超过1.5 m/s时,最大温升变化趋缓直至恒定;等效风速较小时,羽流未发生明显偏移,随着等效风速进一步增大,偏移距离明显增大,其变化速率随火灾强度的增大而减小。经回归整理得到了顶板下方烟气最大温升、偏移距离的无量纲准则关联式。     

硅油型制动液的研究及应用进展

硅油型制动液性能优异,能显著延长制动液更换周期,减少车辆维护成本。本文综述了国外硅油型制动液的研制进展、产品组成、美军产品规范MIL-PRF-46176B和SAEJ1705标准,以及硅油型制动液在车辆上的应用情况。     

柴油机尾气处理液及应用

柴油车排放法规的升级带来选择性催化还原(SCR)技术大量应用,作为SCR技术中必备消耗品,柴油机尾气处理液用于还原氮氧化物,从而实现尾气净化。文章详细阐述了SCR技术应用背景,以及柴油机尾气处理液在SCR系统中的净化反应机理;列举了柴油机尾气处理液主要产品标准规范,以及代表性的ISO22241规范主要技术指标;最后介绍了柴油机尾气处理液在国内外应用情况并提出在国内发展建议。     

超大型油船新型防泥沙设计

压载舱中的泥沙不仅会对船舶双层底产生额外载荷,还会加速底部构件腐蚀,妨碍检查,而清除淤泥一直是令船东和船员们头痛的难题。文章主要介绍应用于超大型油船VLCC的4种新型防泥沙设计概念,并分析这些设计对船舶设计、审核和建造的影响,重点关注了防泥沙设计中涉及的船体梁设计载荷和局部强度。     

船舶涂装爬壁机器人系统研究及集成应用

提出一种大型船舶开放性工作面涂装爬壁机器人系统理论设计与应用方法,研究系统本体运行机理并获得满足工作特性的两项必要条件,即轮辐磁吸力及双轮驱动力矩的极小值条件。建立涂装机器人系统的功能组成及控制机理,并结合开放性工作面开展无线定位及自主规划方法研究,形成能够适应喷涂作业的机器人在线路径规划算法。并结合实际开展涂装系统集成应用测试,检测并采集系统运行过程中动力学参数,系统空间坐标轨迹路线等,实现了涂装工作路径的实时在线规划。通过试验验证了文中的系统力学特性分析及定位方法的有效性。