某航道桥下部结构受船舶撞击后安全性能评估及修复

为评估航道桥下部结构的船撞安全性,以遭受船撞的某内河航道桥为研究对象,采用有限元方法和相关规范计算受撞击的5号桥墩自身水平抗力、船撞力、墩顶位移,并从墩顶位移和桥墩抗力两方面对受撞桥墩的安全性进行评估。结果表明:5号桥墩的横桥向和顺桥向抗力均由桩基强度控制,分别为2528 kN和1142 kN;事故船撞击工况下,墩顶最大横桥向和顺桥向位移分别为7.6 mm、13.4 mm,满足位移限值要求;沿横桥向和顺桥向的船撞安全系数分别为1.67和0.94,顺桥向的自身抗力不足以抵抗瞬时船撞力,导致桥墩桩基础受损,建议采用增大截面法对受损桩基础进行加固补强,并设置独立防撞墩以保障桥梁结构安全。基于分析过程,总结了桥梁下部结构船撞安全评估的一般流程。     

高桩码头评估的干扰能量法及与常规方法的对比

针对高桩码头的检测评估工作中缺少合理有效的评估方法和评估指标的问题,对结合干扰能量法的高桩码头结构评估指标进行研究。采用变分原理和最小势能原理,结合高桩码头的结构特点,建立基于干扰能量法的高桩码头结构整体安全评价的指标体系,并与现行规范进行对比。结果表明,此方法在评估局部构件的同时,还可定量给出结构的整体安全系数,能够反映不同构件对于整体安全性的贡献。     

基于结果导向的绿色公路评价指标体系研究

本文在梳理绿色公路建设历程的基础上,结合绿色公路提出的时代背景、发展要求及目前评价指标体系存在的问题,借鉴目标管理法(MBO)突出结果导向,面向全寿命周期的三个阶段,从"资源节约"、"生态环保"、"低碳减排"、"智慧高效"等方面构建了包括4个一级指标、25个二级指标的绿色公路评价指标体系。     

Efficiency evaluation and PM emission reallocation of China ports based on improved DEA models

The emission of particulate matter (PM) and other atmospheric pollutants in port operations and shipping have caused a huge negative impact on the environment. Consequently, how to evaluate the environmental efficiency of ports and put forward corresponding countermeasures on this basis is becoming a more important issue than ever before from the perspectives of the government, academia, and society. We construct three data envelopment analysis (DEA) models to evaluate the environmental efficiency of ports under the circumstances of environmental control, non-environmental control and PM emission through inter-ports cooperation. The innovation of the DEA models constructed in this paper lies in: (1) Setting environmental control parameters to uniformly manipulate the situations of environmental control and non-environmental control, etc.; (2) Allowing non-equal proportional change of input index, expected output and non-expected output index; (3) Setting preference coefficients for ports to admit favorable decisions; (4) Providing a distance formula of expected output for PM emission reallocation. Further, data from 11 major ports in China are collected to compare the expected output under different PM emission standards assuming the situation of environmental control and non-environmental control, port cooperation, and non-cooperative sewage discharge. The empirical results show that: (1) Ports in the eastern China (Shanghai, Ningbo, and Nanjing) have higher port efficiency; (2) Port cooperation can improve the overall expected output but it will lose its edge with the improvement of PM emission standards. (3) Ports follow the same trend of output loss regardless of favorable decisions. In the end, the author makes a summary, puts forward relevant policy suggestions and makes the recommendation for future research.     

基于层次分析法的交通运输节能减排示范项目绩效评价研究

交通运输是国家节能减排工作的重点领域,为促进交通运输节能减排技术发展,开展交通运输节能减排示范项目是政府部门一项重要的政策措施。对示范项目进行绩效评价工作能衡量财政资金投入政策实施效果,也是交通运输主管部门非常关注的问题。在交通运输节能减排示范项目绩效评价的逻辑框架下,运用层次分析法建立交通运输节能减排示范项目绩效评价指标体系及权重值,具有较好的实操性,能为开展同类型项目的绩效评价工作提供参考。     

SBS/橡胶粉复合改性SH型混合生物沥青工艺及机理

为探究复合改性技术提升混合生物沥青路用性能的工艺及机理,针对特定来源的SH型生物沥青,将其与石油沥青共混制备混合生物沥青后进行SBS/橡胶粉复合改性,研究改性顺序及改性剂掺量对复合改性沥青常规路用性能的影响、生物沥青掺量对改性剂溶胀特性与复合改性沥青高温及低温性能的影响,由此确定混合生物沥青复合改性工艺;利用多应力重复蠕变恢复（MSCR）、弯曲梁流变（BBR）和频率扫描（FS）试验评价复合改性沥青的流变特性;借助红外光谱（IR）化学官能团分析以及荧光显微镜（FM）和原子力显微镜（AFM）微观形貌观测分析揭示混合生物沥青复合改性机理。研究结果表明：SBS掺量为2.5%,橡胶粉掺量为18%（内掺）时,按照先SBS改性后橡胶粉改性的顺序制备的复合改性沥青的常规路用性能均较优;生物沥青掺量为15%时改性剂溶胀特性与复合改性沥青的高温及低温性能均较佳;SBS/橡胶粉复合改性在显著提升混合生物沥青弹性恢复率与m值的同时还降低了其不可恢复柔量与劲度模量,即改善了混合生物沥青的高温稳定性与低温抗裂性,且此结果与FS复数模量主曲线结果相一致;生物沥青可有效增溶聚合物改性剂并增强聚合物相网络结构,从而显著提升沥青复合改性效果;对混合生物沥青进行SBS/橡胶粉复合改性后未出现新的特征吸收峰,此复合改性过程属于物理变化;沥青厂生产的复合改性沥青性能优于实验室水平制备的复合改性沥青。     

山区高速公路边坡稳定性评价方法浅析

山区高速公路边坡的稳定性对道路交通安全具有重要影响,通过对国内外很多边坡稳定性评价方法的介绍,指出了各种边坡稳定性评价方法存在的缺陷,并提出了一些建议。     

圭嘎拉高海拔隧道施工人员体力劳动强度评价

为探究圭嘎拉高海拔隧道施工人员体力劳动强度水平,评价施工工序劳动强度,选择圭嘎拉隧道进口段（海拔4 300 m）及1#斜井段（海拔4 560 m）的施工人员作为测试对象,分别测量不同工序下施工人员的生理指标（心率、血氧饱和度、耗氧量）。基于耗氧量计算能量代谢率,进而计算各工序的劳动强度指数。结果表明： 1）260 m的海拔高差造成的施工综合劳动强度指数差异具有统计学意义（P<0.05）; 2）二次衬砌钢筋绑扎是所测施工工序中劳动强度最大的工序,该工序下施工人员的心率、血氧饱和度和平均能量代谢率都出现超过卫生限值的情况,劳动强度指数达到35（极重）; 3）海拔为4 300~4 560 m时,隧道各施工工序劳动强度大部分为中度-极重度。     

Effect of Seismic Parameters on the Safety Factor for an Underground Cavern北大核心CSCD

In order to quantitatively evaluate the safety of the surrounding rock of an underground cavern under seis-mic load, a comprehensive evaluation method for the stability of surrounding rock is proposed based on the general safety factor and point safety factor. A calculation method for the general safety factor of a cavern based on the prin-ciple of shear strength reduction of a rock mass is given, the run-through of the plastic zone between the main power-house and main transformer room is presented as a critical criterion for the overall instability of the cavern, and the general safety factor is obtained by searching for the reduction coefficient. A point safety factor calculation method based on the Mohr-Coulomb yield criterion is given. The influence of different seismic input parameters on the general safety factor of the cavern and the point safety factor of key positions are studied based on an underground power-house cavern of a hydropower station in Southwest China. The results show that the quantitative evaluation method for the stability of the surrounding rock based on the safety factor is feasible and can reflect the general safety de-gree and local safety degree of different positions of the cavern for different working conditions. It is found that the general safety factor of the cavern and the point safety factor of key positions decrease with an increase of the ampli-tude and duration of a seismic wave while they increase with an increase of the incident angle; additionally, the low frequency of a seismic wave has a great influence on the cavern while the high frequency has little effect. © 2018, Editorial Office of "Modern Tunnelling Technology". All right reserved.