定价 22文章源自云智设计-https://www.cidrg.com/tao/13051.html
- 出版社: 中国石化出版社; 第1版 (2013年5月1日)
- 外文书名:Pressure Vessel System and Design
- 丛书名:普通高等教育"十二五"规划教材
- 平装: 166页
- 语种: 简体中文, 英语
- 开本: 16
- ISBN: 9787511418241
- 条形码: 9787511418241
- 商品尺寸: 21.2 x 13.2 x 1 cm
- 商品重量: 281 g
- 品牌: 中国石化出版社
《普通高等教育"十二五"规划教材:压力容器系统与设计》为双语教学教材。结合过程装备与控制工程专业教学特点,主要对压力容器的要求、分类、材料、制造、检测方法和部分典型单体设备的原理、性能、结构做了详细的阐述,介绍了单层回转壳设计的力学基础和典型容器结构设计方法。同时,详细论述了压力容器运行过程中容易出现的主要问题和解决办法。文章源自云智设计-https://www.cidrg.com/tao/13051.html
编辑推荐
《普通高等教育"十二五"规划教材:压力容器系统与设计》主要培养分析问题,解决问题的能力并锻炼专业英文阅读和交流能力,除可用作过程装备与控制工程专业双语教学教材外,亦可供涉外设计、管理维护进口化工设备人员等参考使用。 文章源自云智设计-https://www.cidrg.com/tao/13051.html
目录
Chapter 1 Introduction
1. 1 Basic Requirements
1. 1.1 Reliable Mechanics Performance
1.1.2 High Unit Throughput
1.1.3 Low Wasting Coefficient
1.1.4 Easy to Fabricate
1.1.5 Transport and Installation
1.1.6 Operation Performance
1. 2 Pressure Vessel Classification
1.2. 1 Types of Reactors
1.2.2 Cryogenic Storage Tanks
Chapter 2 Pressure Vessel Loads and Stress Categories
2. 1 Introduction
2. 2 Design Pressure
2. 3 Dead Loads
2. 4 Wind Loads
2. 5 Earthquake Loads
2. 5.1 General Considerations
2.5.2 Seismic Design of a Rigid Cylindrical Vessel
2.5.3 Seismic Design of Flexible Tall Cylindrical Vessels
2.5.4 Design Considerations
2. 6 Design Temperature
2. 7 Piping Loads
2. 8 Combinations of the Design Loads
2. 9 Stress
2. 10 Stress Categories
2. 11 Strain and Stress-strain Diagrams
2. 11.1 Stress-Strain Curve
2. 11.2 Engineering Stress-Strain Curve
2. 11.3 Tensile Strength
2. 12 Reading Material
2. 12. 1 Measures of Yielding
2. 12. 2 Measures of Ductility
2. 12.3 Stress and Strain Analysis
Chapter 3 Membrane Stresses and Minimum Code Strength Calculations
3.1 General Theory of Membrane Stresses in Vessels under Internal Pressure
3. 2 Membrane Stress Analysis of Thin-shell Elements
3.2. 1 Cylindrical Vessel under Internal Pressure
3.2.2 Spherical Vessel under Internal Pressure
3.2.3 Conical Vessel under Internal Pressure
3.2.4 Ellipsoidal Vessel under Internal Pressure
3. 3 Shell-to-head Juncture Stresses
3.3.1 Poisson's Ratio
3.3.2 Dilation of Pressure Vessels
3.3.3 Discontinuity Stresses in Vessels
3. 4 Minimum Code Strength Calculations
3.4. 1 Allowable Pressure
3.4. 2 Allowable Stress
3.4.3 Safety Factor
3.4.4 Shells
Chapter 4 Heat Exchangers
4. 1 Introduction
4. 2 Types of Heat Exchangers
4. 2. 1 Classification by Heat Transfer Manner
4.2.2 Classification of Transfer Type by Mechanical Structure
4. 3 Shell and Tube Heat Exchanger
4.3.1 Components
4. 3.2 Types of Shell and Tube Heat Exchanger
4. 4 Choosing a Heat Exchanger
4. 4. 1 Fouling
4.4.2 Maintenance of Heat Exchangers
Chapter 5 Tower
5. 1 Introduction
5. 2 Packed Towers
5.2. 1 Introduction
5.2.2 Kinds of Packing
5.2.3 Internals
5. 3 Tray Towers
5.3.1 Counter-current Towers and Cross-current Towers
5.3.2 Sieve Trays
5.3.3 Valves Trays
5.3.4 Bubblecap Tray
5.3.5 Other Types
5.3.6 Internals
5.3.7 Abnormal Operation Conditions
5. 4 Design of Tall Cylindrical Self-Supporting Process Columns
5.4. 1 Introduction
5.4. 2 Shell Thickness Required For a combination of Design Loads
5.4. 3 Support Skirts
5.4. 4 Anchor Bolts
5.4.5 Wind-induced Vibrations
Chapter 6 Construction Materials, Welding, and
Nondestructive Testing
6. 1 Steel Alloys
6. 1.1 The Classification of Carbon Steels
6. 1.2 Effects of Elements on Steel
6. 2 Stainless Steels
6.2. 1 The Classification of Stainless Steels
6.2.2 Selecting a Stainless Steel
6. 3 ASME Code Material Requirements
6. 4 Joining by Welding
6. 4. 1 Welding Calculations
6. 4. 2 Types of Welding
6.4. 3 Weld Failure
6. 5 Nondestructive Testing
Chapter 7 Failure Analysis
7. 1 Introduction
7. 2 Metal Fatigue Failures
7.2. 1 Fatigue Failures
7.2. 2 Stress Ratio
7.2. 3 Preventing Fatigue Failure
7.2.4 Fatigue Failure Analysis
7. 3 Corrosion Failures
7.3.1 Uniform Corrosion
7.3.2 Pitting Corrosion
7.3.3 Crevice Corrosion
7.3.4 Stress Corrosion Cracking
7. 4 Creep and Stress Rupture
7.4. 1 Creep of Metals
7.4. 2 Stress Rupture
7.4. 3 Failure Analysis
7. 5 Hydrogen Embrittlement Failures
7.5. 1 Hydrogen Embrittlement
7.5.2 Hydrogen Embrittlement Failures
7. 6 Ductile and Brittle Failures
7.6. 1 Ductile and Brittle Metal Characteristics
7.6. 2 Brittle Fractures
7.6.3 Ductile Fractures
7. 7 Residual Stresses
7. 8 Wear Failures
7. 9 Fastener Failures
7. 10 Pressure vessel and Pressure Piping Failure
7. 10. 1 Pressure Vessel Failure Analysis
7.10. 2 Failures of Pipelines
7. 10. 3 Boiler Failures
7.10. 4 Failures of Heat Exchangers
7. 11 General Failure Analysis Procedure
Abbreviations and Symbols
The U. S. Customary System of Measures
References文章源自云智设计-https://www.cidrg.com/tao/13051.html 文章源自云智设计-https://www.cidrg.com/tao/13051.html
