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高速公路机电设备使用寿命预测模型 被引量:15

Service Lifetime Prediction Modeling for Expressway Electromechanical Equipments
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摘要 中国对高速公路机电设备寿命的管理方法研究尚处于起步阶段,需要明确地制订出机电设备经济合理的使用寿命并及时对设备进行报废更新。本文在用Delphi法预测设备的物理寿命、用最小年平均费用法和低劣化数值法计算设备的经济寿命的基础上,提出了基于设备的物理寿命和经济寿命的综合预测新模型。利用Pareto原理确定综合预测模型的参数并计算出设备的使用寿命。通过实例分析,验证了本方法的有效性和实用性,可为高速公路机电设备的报废更新提供决策依据。 The lifetime management for expressway electromechanical equipment is short of predicting approach in China.Formulating the economic lifetime and reasonable service lifetime of electromechanical equipment is necessary to replace equipments timely and rapidly.A comprehensive prediction model of service lifetime was proposed based on physical lifetime and economic lifetime for the expressway electromechanical equipment in this paper.The physical lifetime of equipment was predicted by using Delphi method,and the economic lifetime of equipment was calculated by using the minimum annual mean cost method and the numerical degradation method.The parameter of proposed model was determined preliminarily by using Pareto principle for formulating the service lifetime of equipment.The effectiveness and practicality of the approach has been tested and verified by case study to the replacing of expressway electromechanical equipment.
出处 《河南科技大学学报(自然科学版)》 CAS 北大核心 2011年第2期12-15,107-108,共4页 Journal of Henan University of Science And Technology:Natural Science
基金 国家自然科学基金项目(71071078)
关键词 综合预测模型 高速公路机电设备 使用寿命 经济寿命 Comprehensive prediction model Expressway electromechanical equipment Service lifetime Economic lifetime
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  • 1陈建,王磊,周腾,王晓双.营运高速公路机电设施技术状况评定方法探究[J].中国交通信息化,2022(S01):49-51. 被引量:1
  • 2杨守良.基于FPGA的高速并行A/D采样控制电路的设计[J].重庆文理学院学报(自然科学版),2006,5(4):52-54. 被引量:10
  • 3刘景珍,王奉涛,马孝江,徐涛.设备更新决策系统中抽油机经济寿命的计算[J].油气田地面工程,2007,26(1):14-15. 被引量:2
  • 4Ruey huei yeh, Kow-Chin Kao. Optimal Preventive Maintenance Policy for Leased Equipment Using Failure Rate Reduction[ J]. Computer&Industrial Engineering, 2009,57 ( 1 ) : 304 -309.
  • 5Nader M O, Dan M F. Redundancy of Structural Systems with and Without Maintenance : An Approach Based on Lifetime Functions[ J]. Reliability Engineering and System Safety,2010,95 (5) :520 -533.
  • 6Natali Hritonenko, Yuri Yatsenko. The Dynamics of Asset Lifetime Under Technological Change [ J ]. Operations Research Letters ,2008,36:565 -568.
  • 7YEH R H, KAO K C, CHANG W L. Optimal preventive maintenance policy for leased equipment using failure rate reduction [ J]. Computer & Industrial Engineering, 2009, 57 (1) : 304-309.
  • 8OKASHA N M, FRANGOPOL D M. Redundancy of structural systems with and without maintenance: An approach based on lifetime functions [ J ]. Reliability Engineering and System Safety, 2010, 95 (5) : 520-533.
  • 9HRITONENKO N, YATSENKO Y. The dynamics of asset lifetime under technological change[ J]. Operations Research Letters, 2008, 36: 565-568.
  • 10GIORGIO M, GUIDA M, PULCINI G. A wear model for assessing the reiiability of cylinder liners in marine diesel engines [ J ]. Transactions on Reliability, 2007, 56( 1 ) : 158-166.

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