参考文献(References):
[1] 冯爱军.中国城市轨道交通2021年数据统计与发展分析[J].隧道建设(中英文),2022,42(2):336.
[2] 王馥珏,宋国涛.基于碳交易的城市能源系统规划方法研究[J].南京理工大学学报,2022,46(4):501.
[3] 刘淳森,曲建升,葛钰洁,等.基于LSTM 模型的中国交通运输业碳排放预测[J].中国环境科学,2023,43(5):2574.
[4] IBBOTSON S,DETTMER T,KARA S,et al.Eco-efficiency of disposable and reusable surgical instruments:a scissors case[J].The International Journal of Life Cycle Assessment,2013,18:1137.
[5] PHULUWA H S,DANIYAN I,MPOFU K.Development of a sustainable decision framework for the implementation of end-of-life (EoL) options for the railcar industry[J].Environment,Development and Sustainability,2021,23:9433.
[6] CHESTER M,HORVATH A.High-speed rail with emerging automobiles and aircraft can reduce environmental impacts in California’s future[J].Environmental Research Letters,2012,7(3):034012.
[7] MEYNERTS L,BRITO J,RIBEIRO I,et al.Life cycle assessment of a hybrid train:comparison of different propulsion systems[J].Procedia CIRP,2018,69:511.
[8] ?KERMAN J.The role of high-speed rail in mitigating climate change:the Swedish case Europabanan from a life cycle perspective[J].Transportation Research:Part D:Transport and Environment,2011,16(3):208.
[9] DONG D,DUAN H B,MAO R C,et al.Towards a low carbon transition of urban public transport in megacities:a case study of Shenzhen,China[J].Resources,Conservation and Recycling,2018,134:149.
[10] DA SILVA T R,MOURA B,MONTEIRO H.Life cycle assessment of current portuguese railway and future decarbonization scenarios[J].Sustainability,2023,15(14):11355.
[11] WANG J,LI R,DING G F,et al.Product-service system engineering characteristics design for life cycle cost based on constraint satisfaction problem and Bayesian network[J].Advanced Engineering Informatics,2022,52:101573.
[12] 孙华,史耀君,周华杉,等.碳纤维复合材料在轨道交通车辆上的应用与发展趋势[J].轨道交通材料,2023,2(2):29.
[13] 贾亚丽,赵刚,李淑俊.成都地铁车辆塞拉门故障分析及整改措施[J].电力机车与城轨车辆,2015,38(2):85.
[14] 全国环境管理标准化技术委员会.环境管理生命周期评价原则与框架:GB/T 24040—2008/ISO 14040:2006[S].北京:中国标准出版社,2008:9.
[15] 国家建筑材料工业局.铁道车辆用安全玻璃:GB 18045—2000[S].北京:中国标准出版社,2000:2.
[16] 尹洪权,雷莉.地铁车辆客室塞拉门密封问题的探讨[J].现代城市轨道交通,2012(3):25.
[17] KIM R,LIM M K,ROH S,et al.Analysis of the characteristics of environmental impacts according to the cut-off criteria applicable to the streamlined life cycle assessment (S-LCA) of apartment buildings in South Korea[J].Sustainability,2021,13(5):2898.
[18] 黎土煜,余大立,张洪申.基于全生命周期的报废汽车回收利用措施探讨:以云南省为例[J].环境工程,2018,36(3):118.
[19] 中华人民共和国工业和信息化部.道路车辆可再利用率和可回收利用率要求及计算方法:GB/T 19515—2023[S].北京:中国标准出版社,2023:2.
[20] BERZI L,DELOGU M,GIORETTI A,et al.On-field investigation and process modelling of end-of-life vehicles treatment in the context of Italian craft-type authorized treatment facilities[J].Waste Management,2013,33(4):897.
[21] 王彦,王陶,邹小俊,等.基于电机余热回收的电动汽车综合热管理系统分析[J].南京理工大学学报,2023,47(3):392.
[22] WANG J Y,WU H Y,TAM V W Y,et al.Considering life-cycle environmental impacts and society’s willingness for optimizing construction and demolition waste management fee:an empirical study of China[J].Journal of Cleaner Production,2019,206:1007.
[23] 刘玮,万燕鸣,陈思源,等.基于场景模拟的公路货运新能源车成本效益分析研究[J].中国环境科学,2023,43(10):5624.
[24] 佟继英,关军.中国省际环境经济效率的测算:基于WTP-DEA模型的实证研究[J].价格理论与实践,2016 (12):184.
[25] 李小冬,吴星,张智慧.基于LCA理论的环境影响社会支付意愿研究[J].哈尔滨工业大学学报,2005,37(11):1508.
[26] 韩建明,杨玉鸿.苏州轨道交通1号线全生命周期成本分析[J].城市轨道交通研究,2022,25(5):9.
[27] 孙玉芳.基于全寿命周期成本理论的节能建筑成本管理研究[D].淄博:山东理工大学,2014:33.
[28] 张慧,池涌,王立贤,等.典型厨余垃圾处置利用技术的环境与火用生命周期评价[J].环境工程学报,2022,16(6):2089.
[29] 王丽娟,张剑,王雪松,等.中国电力行业二氧化碳排放达峰路径研究[J].环境科学研究,2022,35(2):332.
[30] CHESTER M,PINCETL S,ELIZABETH Z,et al.Infrastructure and automobile shifts:positioning transit to reduce life-cycle environmental impacts for urban sustainability goals[J].Environmental Research Letters,2013,8(1):015041.
[31] 李佳蕾,陈小彤,陈星,等.清洁电力生产的生态效益评价方法研究[J].全球能源互联网,2021,4(3):281.
[32] DANIYAN I A,MPOFU K,FAMESO F O,et al.Development and simulation of isotropic hardening for AISI 1035 weld stress prediction during design and welding assembly of lower brackets of rail cars[J].Procedia CIRP,2019,84:921.
[33] LI Y N,LIU W F,CHEN Z P,et al.A novel approach for occupational health risk assessment and its application to the welding project[J].Journal of Cleaner Production,2022,378:134590.
[34] 张琼之,曹华军,葛威威.激光焊接系统环境影响生命周期评价研究[J].金属加工(热加工),2023(3):34.
[35] CHANG Y J,SPROESSER G,NEUGEBAUER S,et al.Environmental and social life cycle assessment of welding technologies[J].Procedia CIRP,2015,26:295.
[36] 杨斌,陈建武,王佩,等.碳钢和铝合金焊接烟尘环境危害特性对比研究[J].中国安全生产科学技术,2023,19(8):142.