- 数值方法于供热管道的应用及拓展(英文版)/博士后文库
- - 作者：徐钱
  - 出版社：科学
  - ISBN：9787030783639
  - 出版日期：2025/01/01
  - 页数：313
- 售价：91.2

内容大纲
本书建立一套从管道理论到传统供热管道应用再到创新拓展的完整的逻辑体系。主要包含理论基础和案例研究两个部分共四个篇章，开篇讲述了区域集中供热的基础概念、相关标准、发展历程、面临问题及未来的发展趋势。紧接着理论基础部分针对区域供热管网的基本特征安装及敷设方式做了介绍。案例研究分为三个篇章，其中第二篇章对不同结构的供热管道从安全性及经济性两方面着手进行了详细的数值研究；第三篇章在供热管道的基础上转向能源输运管道，输运介质从原来的热水、热蒸汽转向了石油天然气；最后第四篇章将传统供热刚性管道数值研究技术革新并成功应用到了生物弹性血管的研究方面，利用工学的数值模拟技术解决医学临床问题。
作者介绍
目录
CHapter 1 District Heating
  1.1  District Heating Systems
    1.1.1  Overview of District Heating Systems
    1.1.2  Development of District Heating System
    1.1.3  Industry Standard of District Heating System Pipe Network
    1.1.4  Problems of District Heating System Pipe Network
    1.1.5  Future Development of District Heating Systems
References
CHapter 2 Basic Characteristics of Heating Pipeline Network System
  2.1  Heating Pipeline Network
    2.1.1  Prefabricated Insulation Pipe Structure
    2.1.2  SoilMass
  2.2  Long-Distance Transmission and Supply Pipe Network System LayingMethod
    2.2.1  Laying on the Ground
    2.2.2  Underground Laying
  2.3  Installation of Heating Pipeline Network
    2.3.1  Installation Components of Heating Pipeline Network
    2.3.2  Layout of Heating Pipeline Network
    2.3.3  Installation Method of Heating Pipelines
References
CHapter 3 Basic Theory of Long Distance Pipeline
  3.1  Basic Theory of Fluid Solid Thermal Coupling
    3.1.1  Development of Fluid Structure Thermal Coupling Cooperation
    3.1.2  Definition and Classification of Fluid Solid Thermal Coupling
    3.1.3  Fluid–Solid–Thermal Coupling Calculation Theory
    3.1.4  Research Methods for Fluid Solid Thermal Coupling
    3.1.5  Theoretical Analysis of Multi Field Coupling
References
CHapter 4 Theory of Elastoplasty and Economic Evaluation for Directly Buried Insulated Pipeline Systems
  4.1  Development of Pipeline Elastoplasticity
  4.2  Elastoplastic Definition and Classification of Pipeline
    4.2.1  Elastoplastic Definition and Characteristics of Pipeline
    4.2.2  Elastoplastic Classification of Pipelines
  4.3  Pipeline Elastic–Plastic Calculation Theory
    4.3.1  Calculation Theory of Elasticity
    4.3.2  Calculation Theory of Plastic Mechanics
    4.3.3  Definition and Classification of Pipeline Heat Loss
    4.3.4  Theoretical Calculation of Heat Loss
  4.4  Economic Evaluation of Pipe Network Operation
    4.4.1  Economic Evaluation Theory
References
CHapter 5 Case Study on Fluid–Solid Thermal Coupling in Heating Pipelines
  5.1  Effects of the Temperature and Pressure Loads Coupled on Structure Stress of “L”-Type Large-Diameter Buried Pipe Network
    5.1.1  Overview
    5.1.2  Numerical Model
    5.1.3  Results and Analysis
    5.1.4  Conclusion
References
CHapter 6 Effects of End to Side Displacement Load on Structure Stress and Deformation of “L”-Type Large-Diameter Buried Pipe
Network

  6.1  Overview
  6.2  Numerical Model
  6.3  Results and Analysis
    6.3.1  Equivalent Stress and Strain Distribution of Pipeline Network Under Equivalent Displacement Load
    6.3.2  Effect of Equivalent End Displacement Release on Equivalent Stress and Deformation of Pipelines
    6.3.3  Equivalent Stress and Deformation Distribution of Pipelines Under Non-Equivalent Displacement Loads
    6.3.4  Effect of Unequivalent End Side Displacement Release on Equivalent Stress and Deformation of Pipelines
  6.4  Conclusions
References
CHapter 7 Analysis of Fluid–Solid–Thermal Performance of L-Shaped Pipeline System
  7.1  Overview
  7.2  Numerical Model
  7.3  Results and Analysis
    7.3.1  Comparison of Experimental Parameters
    7.3.2  Analysis of Pressure and Temperature Fields in the Fluid Region
    7.3.3  Deformation Distribution Performances of the Pipeline Under Different Loads and Laying Conditions
    7.3.4  Influences of Different Loads on Maximum Deformation of Elbow
    7.3.5  Influences of Coupling Action on Maximum Deformation of an Elbow
  7.4  Conclusions
References
CHapter 8 Coupled Validity Analysis of Solid-Heat Multi-Field Model for Straight Tube Flow
  8.1  Overview
  8.2  Numerical Model
  8.3  Results and Analysis
    8.3.1  Stress and Deformation Distribution of Pressure Pipeline Along Axial Direction and Cross-Section
    8.3.2  Stress and Deformation Distribution of Pipeline Under Separate Action of Temperature Loading and Pressure Loading
    8.3.3  Distribution of Stress and Deformation in the Axial Direction at Critical Points of the Pipe Cross-Section Under Coupling
Action
  8.4  Conclusions
References
CHapter 9 Influence of Key Structural Parameters on Total Heat Loss and Heat Transfer Between Tubes
  9.1  Overview
  9.2  Numerical Model
  9.3  Results and Analysis
    9.3.1  Influence ofKey Structural Parameters on the Total Heat Loss of the System
    9.3.2  Influence of Key Structural Parameters on Heat Transfer Between Tubes
    9.3.3  Influence of Dimensionless Characteristic Parameters on the Total Heat Loss of the System and Heat Transfer Between Pipes
    9.3.4  Influence of Dimensionless Characteristic Parameters on Heat Loss Cost and Material Consumption Cost
  9.4  Conclusions
References
Chapter 10 Case Study on External Load Action of Large Diameter Energy Transport Pipeline
  10.1  Overview
  10.2  Numerical Model
  10.3  Results and Analysis
  10.4  Conclusions
References
Chapter 11 Dynamic Response of Natural Gas Pipeline Under Moving Loads
  11.1  Overview
  11.2  Numerical Model
  11.3  Results and Analysis

  11.4  Conclusions
References
Chapter 12 Hazardous Area Prediction for Natural Gas Pipelines Under Falling Rocks
  12.1  Overview
  12.2  Numerical Model
  12.3  Results and Analysis
  12.4  Conclusions
References
Chapter 13 Study on the Plastic Region of Natural Gas Pipeline Under Ground Overload
  13.1  Overview
  13.2  Numerical Model
  13.3  Result and Analysis
  13.4  Conclusions
References
Chapter 14 Dynamic Response of Hydrogen Transportation Pipeline Under the Action of Oblique Reverse Faults
  14.1  Overview
  14.2  Numerical Model
  14.3  Influencing Factors of Buried Pipeline Under Oblique Reverse Fault

内容大纲

作者介绍

目录

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