基于ANP-灰色关联TOPSIS法的引水隧洞病害安全性评价
|
摘要
为客观评价西北地区引水隧洞病害安全状态,结合西北地区引水隧洞在运营期存在的病害问题,建立引水隧洞病害安全评价指标体系。应用Super Decision软件用ANP法确定各指标权重,在传统TOPSIS法的基础上加入灰色关联理论,构建西北地区引水隧洞病害安全评价模型。运用该模型以引大入秦工程盘道岭隧洞6个典型隧洞段为研究对象进行病害安全性评价,得出各隧洞段病害安全等级。评价结果客观准确,验证了所建指标体系及模型的科学合理性,可运用于长距离引水工程安全研究方面。
In order to objectively evaluate the safety state of diversion tunnel disease in Northwest China,the safety evaluation index system of diversion tunnel disease is established in view of the disease problems existing in the operation period of diversion tunnel in Northwest China. The weight of each index is determined by using Super Decision software and ANP method. Based on the traditional TOPSIS method,the grey relational theory is added to construct the safety evaluation model of diversion tunnel in Northwest China. The model is used to evaluate the safety of six typical tunnel sections in Pandaoling tunnel in Introducing Datonghe into Qinwangchuan Project,and the safety grade of each tunnel segment is obtained. The evaluation results are objective and accurate,which verify the scientific rationality of the established index system and model,and can be applied to the safety research of long distance water diversion projects.
In order to objectively evaluate the safety state of diversion tunnel disease in Northwest China,the safety evaluation index system of diversion tunnel disease is established in view of the disease problems existing in the operation period of diversion tunnel in Northwest China. The weight of each index is determined by using Super Decision software and ANP method. Based on the traditional TOPSIS method,the grey relational theory is added to construct the safety evaluation model of diversion tunnel in Northwest China. The model is used to evaluate the safety of six typical tunnel sections in Pandaoling tunnel in Introducing Datonghe into Qinwangchuan Project,and the safety grade of each tunnel segment is obtained. The evaluation results are objective and accurate,which verify the scientific rationality of the established index system and model,and can be applied to the safety research of long distance water diversion projects.
引文
[1]杨柳,汪妮,解建仓,等.跨流域调水与受水区多水源联合供水模拟研究[J].水利发电学报,2015,34(6):49-56+212.
[2]ABED-ELMDOUST A,KERACHIAN R.Evaluating the relative power of water users in inter-basin water transfer systems[J].Water Resources Management,2014,28(2):495-509.
[3]靳春玲,贡力.引洮工程中隧洞常见病害分析[J].人民黄河,2012,34(10):108-109+113.
[4]司春棣.引水工程安全保障体系研究[D].天津:天津大学,2007.
[5]DONG Longjun,HU Datao,BAI Yunfei,et al.Unascertained average grade model for surrounding rock classification on hydraulic tunnels[C]∥The 2008 International Symposium on Safety Science and Technology,China Occupational Safety and Healty Association,Beijing:2008.
[6]王桂平,朱苦竹.基于模糊神经网络的水工隧洞病害诊断研究[J].地下空间与工程学报,2009,5(1):201-206.
[7]JIA Xiaoyun,LIN Baolong.Numerical analysis of lining temperature field of hydraulic tunnel under the highway[J].Advanced Materials Research,2011,163-167:1505-1515.
[8]王梦雅,夏富洲.基于可拓理论的渡槽结构老化评价[J].武汉大学学报,2014,47(2):211-216+254.
[9]潘洪科,李业学,王爱勤.渡槽工程的病害分析与防治研究[J].河南大学学报,2015,45(4):493-498.
[10]SWANNELL N,PALMER M,BARLA G,et al.Geotechnical risk management approach for TBM tunnelling in squeezing ground conditions[J].Tunnelling and Underground Space Technology,2016,57(3):201-210.
[11]王莲芬.网络分析法(ANP)的理论与算法[J].系统工程理论与实践,2001(3):44-50.
[12]VINODH S,GAUTHAM S G,ANESH RAMIYA R,et al.Application of fuzzy analytic network process for agile concept selection in a manufacturing organisation[J].International Journal of Production Research,2010,48(24):7243-7264.
[13]陈宇寒,张宏.基于PSO和扩展TOPSIS方法的COA优选方法[J].系统工程理论与实践,2015,35(8):2144-2151.
[14]柴乃杰,鲍学英,张天奇,等.TOPSIS-熵权决策法在绿色施工节水措施综合效益评价中的应用[J].水资源与水工程学报,2017,28(5):156-161.
[15]DENG Hepu,YEH C H,WILLIS R J.Inter-company comparison using modified TOPSIS with objective weights[J].Computers&Operations Research,2000,27(10):963-973.
[16]王锦辉,费良军,谢芳,等.灰色关联理论-TOPSIS法的大型灌区运行状况综合评价[J].排灌机械工程学报,2015,33(11):985-990.
[17]LIU P,WANG T.Research on risk evaluation in supply chain based on grey relational method[J].Journal of computers,2008,3(10):28-35.
[18]田民,刘思峰,卜志坤.灰色关联度算法模型的研究综述[J].理论新探,2008(1):24-27.
[19]尹庭杰,梁庆国,赵佃锦.引大入秦工程盘道岭隧洞病害原因浅析[J].兰州交通大学学报,2014,33(4):82-88.
[2]ABED-ELMDOUST A,KERACHIAN R.Evaluating the relative power of water users in inter-basin water transfer systems[J].Water Resources Management,2014,28(2):495-509.
[3]靳春玲,贡力.引洮工程中隧洞常见病害分析[J].人民黄河,2012,34(10):108-109+113.
[4]司春棣.引水工程安全保障体系研究[D].天津:天津大学,2007.
[5]DONG Longjun,HU Datao,BAI Yunfei,et al.Unascertained average grade model for surrounding rock classification on hydraulic tunnels[C]∥The 2008 International Symposium on Safety Science and Technology,China Occupational Safety and Healty Association,Beijing:2008.
[6]王桂平,朱苦竹.基于模糊神经网络的水工隧洞病害诊断研究[J].地下空间与工程学报,2009,5(1):201-206.
[7]JIA Xiaoyun,LIN Baolong.Numerical analysis of lining temperature field of hydraulic tunnel under the highway[J].Advanced Materials Research,2011,163-167:1505-1515.
[8]王梦雅,夏富洲.基于可拓理论的渡槽结构老化评价[J].武汉大学学报,2014,47(2):211-216+254.
[9]潘洪科,李业学,王爱勤.渡槽工程的病害分析与防治研究[J].河南大学学报,2015,45(4):493-498.
[10]SWANNELL N,PALMER M,BARLA G,et al.Geotechnical risk management approach for TBM tunnelling in squeezing ground conditions[J].Tunnelling and Underground Space Technology,2016,57(3):201-210.
[11]王莲芬.网络分析法(ANP)的理论与算法[J].系统工程理论与实践,2001(3):44-50.
[12]VINODH S,GAUTHAM S G,ANESH RAMIYA R,et al.Application of fuzzy analytic network process for agile concept selection in a manufacturing organisation[J].International Journal of Production Research,2010,48(24):7243-7264.
[13]陈宇寒,张宏.基于PSO和扩展TOPSIS方法的COA优选方法[J].系统工程理论与实践,2015,35(8):2144-2151.
[14]柴乃杰,鲍学英,张天奇,等.TOPSIS-熵权决策法在绿色施工节水措施综合效益评价中的应用[J].水资源与水工程学报,2017,28(5):156-161.
[15]DENG Hepu,YEH C H,WILLIS R J.Inter-company comparison using modified TOPSIS with objective weights[J].Computers&Operations Research,2000,27(10):963-973.
[16]王锦辉,费良军,谢芳,等.灰色关联理论-TOPSIS法的大型灌区运行状况综合评价[J].排灌机械工程学报,2015,33(11):985-990.
[17]LIU P,WANG T.Research on risk evaluation in supply chain based on grey relational method[J].Journal of computers,2008,3(10):28-35.
[18]田民,刘思峰,卜志坤.灰色关联度算法模型的研究综述[J].理论新探,2008(1):24-27.
[19]尹庭杰,梁庆国,赵佃锦.引大入秦工程盘道岭隧洞病害原因浅析[J].兰州交通大学学报,2014,33(4):82-88.