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生命線工程系統(網路可靠性分析與抗震設計)(英文版)(精)

  • 作者:李傑//劉威
  • 出版社:上海科技
  • ISBN:9787547854167
  • 出版日期:2021/09/01
  • 裝幀:精裝
  • 頁數:210
人民幣:RMB 265 元      售價:
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    本書全面介紹了生命線地震工程的相關內容和最新研究進展,突破了傳統研究思路中重結構輕網路,重連通輕功能、重分析輕設計的問題,構建了從結構分析到網路功能分析再到網路設計的研究思路,在國際上首次實現了生命線工程網路連通可靠度的高效精確的遞推分解演算法、地震下帶滲漏工作供水網路功能可靠度的精細化分析方法、生命線工程網路抗震優化設計以及複合生命線網路建模和模擬。
作者介紹
李傑//劉威
目錄
1  Introduction
  1.1  Lifeline Engineering Systems
  1.2  Damages of Lifeline Systems in Past Earthquakes
  1.3  Main Content of the Book
  References
2  Seismic Hazard Assessment
  2.1  Introduction
  2.2  Uncertainty and Probability Model
    2.2.1  Earthquake Occurrence Probability Model
    2.2.2  Potential Seismic Zone
    2.2.3  Probability Distribution Function of Earthquake Magnitude
    2.2.4  Ground Motion Attenuation
  2.3  Seismic Hazard Analysis Method
    2.3.1  Point-Source Model
    2.3.2  Line-Source Model
    2.3.3  Area-Source Model
    2.3.4  Probability Distribution Function of Ground Motion Amplitude
  References
3  Seismic Ground Motion Model
  3.1  Introduction
  3.2  Statistically-Based Model
    3.2.1  Stationary and Non-stationary Processes
    3.2.2  One-Dimensional Stochastic Process Model
    3.2.3  Random Field Model
  3.3  Physically-Based Model
    3.3.1  Fourier Spectral Form of One-Dimensional Ground Motion
    3.3.2  Seismic Source Spectrum
    3.3.3  Transfer Function of the Path
    3.3.4  Local Site Effect
    3.3.5  One-Dimensional Ground Motion Model
    3.3.6  Physical Random Field Model of Ground Motions
  References
4  Seismic Performance Evaluation of Buried Pipelines
  4.1  Seismic Damage of Buried Pipelines
    4.1.1  Pipeline Damage in Past Earthquakes
    4.1.2  Damage Characteristics of Buried Pipelines
    4.1.3  Factors Affecting Buried Pipeline Damages
    4.1.4  Empirical Statistics of Damage Ratio
  4.2  Seismic Response Analysis of Buried Pipelines
    4.2.1  Pseudo-static Analysis Method
    4.2.2  Pipeline Stress Computation
  4.3  Seismic Response Analysis of Pipeline Networks
  4.4  Seismic Reliability Evaluation of Buried Pipeline
    4.4.1  Uncertainty of Pipeline Resistance
    4.4.2  Seismic Reliability Analysis of Buried Pipelines
  References
5  Seismic Response Analysis of Structures
  5.1  Structural Analysis Model
    5.1.1  General Finite Element Model
    5.1.2  Seismic Analysis Model of Structure-Equipment Systems

    5.1.3  Dynamic Analysis Model of Structure Subject to Multi-point Ground Motions
  5.2  Deterministic Seismic Response Analysis of Structures
    5.2.1  Linear Acceleration Algorithm
    5.2.2  Generalized u-Algorithm
  5.3  Stochastic Seismic Response Analysis of Structures
    5.3.1  Principle of Preservation of Probability
    5.3.2  The Generalized Probability Density Evolution Equation
    5.3.3  Numerical Method for Solving General Probability Density Evolution Equation
  5.4  Seismic Reliability Analysis of Structures
  References
6  Seismic Reliability Analysis of Engineering Network(I)--Connectivity Reliability
  6.1  Introduction
  6.2  Foundation of System Reliability Analysis
    6.2.1  Basic Concepts of Graph Theory
    6.2.2  Structural Function of Network Systems
    6.2.3  Reliability of Simple Network System
  6.3  Minimal Path Algorithm
    6.3.1  Adjacent Matrix Algorithm
    6.3.2  Depth First Search Algorithm
    6.3.3  Breadth First Search Algorithm
  6.4  Disjoint Minimal Path Algorithm
    6.4.1  Reliability Evaluation of Network System and Its Complexity
    6.4.2  Disjoint Minimal Path Algorithm
    6.4.3  Reliability Analysis Based on DMP Algorithm
    6.5  Recursive Decomposition Algorithm
    6.5.1  Related Theorems
    6.5.2  RDA for Edge-Weighted Network
   6.5.3  RDA for Node-Weighted Network
  6.6  Cut-Based Recursive Decomposition Algorithm
    6.6.1  Minimal Cut Searching Algorithm
    6.6.2  Cut-Based Recursive Decomposition Algorithm
  6.7  Reliability Analysis of Network with Dependent Failure
  6.8  Monte Carlo Simulation Method
  References
7  Seismic Reliability Analysis of Engineering Network (II)--The Functional Reliability
  7.1  Introduction
  7.2  Functional Analysis of Water Supply Network
  7.3  Functional Analysis of Water Supply Network with Leakage
    7.3.1  Hydraulic equation of water supply network with leakage
    7.3.2  Analysis method
  7.4  Seismic Functional Reliability Analysis of Water Supply Network
  References
8  Aseismic Optimal Design of Lifeline Networks
  8.1  Introduction
  8.2  Network Topology Optimization Based on Connectivity Reliability
    8.2.1  Topology Optimization Model
    8.2.2  Genetic Algorithm
    8.2.3  Examples
  8.3  Topology Optimization of Water Supply Network
    8.3.1  Optimization Model

    8.3.2  Algorithms for Seismic Topology Optimization
    8.3.3  Examples
  References
9  Simulation and Control of Composite Lifeline System
  9.1  Introduction
  9.2  Disaster Response Simulation of Composite Lifeline System
    9.2.1  Fundamentals of Discrete Event Dynamic Simulation
    9.2.2  Simulation of Composite Lifeline Engineering System
    9.2.3  Disaster Simulation Model of Composite Lifeline System
    9.2.4  Simulation Convergence Criteria and Simulation Statistics
  9.3  Petri Net Model for Disaster Simulation of Composite Lifeline System
    9.3.1  Classic Petri Net
    9.3.2  Non-Autonomous Colored Petri Net
    9.3.3  Seismic Disaster Simulation of Composite Lifeline System
  9.4  Case Study on Seismic Disaster Simulation
  9.5  Urban Earthquake Disaster Field Control
    9.5.1  System Control Based on Structural Behavior
    9.5.2  System Control Based on Investment Behavior
    9.5.3  Case Study
  References
Appendix A: Boolean Algebra Basic
Appendix B: Seismic Reliability Analysis of Transformer Substation
Appendix C: Seismic Secondary Fire Analysis
Bibliography

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