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Basic Design of Chemical Equipment 2015

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  • Data language: Chinese version
  • Document format: PDF document
  • Category: Chemical Books
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Design Basis of Chemical Equipment: Liu Renhuan with Publication date: 2015
Series items: Brief introduction to the textbook of the "Twelfth Five-Year Plan" for general higher education "Basics of Chemical Equipment Design" mainly introduces the basic mechanical knowledge of chemical equipment design. The book is divided into 3 chapters. The first chapter is the basis of engineering mechanics. It mainly discusses the force analysis of components, the deformation and failure laws of components, and their strength, stiffness, and stability conditions. The second part is the design of chemical container. It mainly introduces the common materials of chemical equipment, the types, characteristics and design calculation methods of container barrels and heads, and the types and selection methods of main components of containers. Part 3 is the design of typical chemical equipment, mainly introducing the structural forms and design methods of shell and tube heat exchangers and tower equipment commonly used in chemical production. This book is rich in content, covers a wide range of disciplines, and is closely combined with engineering practice. It can be used as a textbook for chemical engineering and technology majors and other related professional subjects in colleges and universities, and can also be used as a reference for related engineering and technical personnel.
table of Contents

Chapter 1 Foundations of Engineering Mechanics Chapter 1 Force Analysis of Components
1.1 Basic Concepts and Axioms of Statics
1.2 Constraints and Constraints
1.3 Force diagram
1.4 Simplification and Equilibrium Conditions of Plane Forces Exercises Chapter 2 Stretching and Compression of Straight Rods
2.1 Basic forms of component deformation
2.2 Internal force during axial tension or compression
2.3 Stress during axial tension or compression
2.4 Deformation during axial tension or compression
2.5 Mechanical properties of the material under axial tension or compression
2.6 Strength Conditions for Axial Tension or Compression Exercises Chapter 3 Shear and Torsion
3.1 Shear
3.2 External and internal forces when the circular shaft is twisted
3.3 Stress during torsion of a circular shaft
3.4 Calculation of Strength and Stiffness of a Circular Axis in TorsionChapter 4 Bending of a Straight Beam
4.1 The concept of plane bending
4.2 Internal forces when straight beams are bent
4.3 Normal stress on beam cross section in pure bending
4.4 Calculation of beam bending strength
4.5 The main ways to improve the bending strength of beams
4.6 Beam Deformation and Stiffness Check ExercisesChapter 5 Stress State and Strength Theory
5.1 Concept of stress state
5.2 Plane stress state
5.3 Generalized Hook's Law
5.4 Strength theory
5.5 Strength Calculation Exercises for Combined Deformation Chapter 2 Chemical Container Design Chapter 6 Chemical Equipment Materials
6.1 Basic properties of metal materials
6.2 Steel materials
6.3 Steel materials commonly used in chemical containers
6.4 Non-ferrous metal materials
6.5 Non-metallic materials
6.6 Corrosion and anti-corrosion measures of chemical equipment
6.7 Material selection exercises for chemical equipment Chapter 7 Overview of chemical equipment design
7.1 Container Structure and Classification
7.2 Standardization of container parts
7.3 Safety monitoring of pressure vessels
7.4 Basic requirements for container machinery design Exercises Chapter 8 Stress analysis of thin-walled containers
8.1 Stress Analysis of Thin-walled Cylinder Under Internal Pressure——Thin Film Theory
8.2 Application of Thin Film Theory
8.3 Edge Stress Exercises for Internal Pressure CylindersChapter 9 Design of Internal Pressure Thin Walled Vessel
9.1 Basics of Strength Design
9.2 Strength Design of Thin Wall Cylinder and Spherical Shell under Internal Pressure
9.3 Design Exercises for Internal Pressure Cylinder Heads Chapter 10 External Pressure Vessel Design
10.1 Overview
10.2 Critical pressure and its influencing factors
10.3 Engineering design of external pressure cylinder
10.4 Design of external pressure ball shell and convex head
10.5 Design Exercises for Reinforcement Circles Chapter 11 Components of Pressure Vessels
11.1 Flange connection
11.2 Container support
11.3 Reinforcement of container openings
11.4 Pressure Vessel Attachment Exercises Chapter 3 Typical Chemical Equipment Design Chapter 12 Shell and Tube Heat Exchangers
12.1 Form of shell and tube heat exchanger
12.2 Main Components of Shell and Tube Heat Exchangers
12.3 Temperature difference stress and its compensation
12.4 Design and Selection of Shell and Tube Heat ExchangersChapter 13 Mechanical Design of Tower Equipment
13.1 Plate tower structure
13.2 Packed Tower Structure
13.3 Mechanical design of tower and skirt
13.4 Design Example Exercises Appendix 1 Allowable Stresses of Steel Plates and Steel Pipes (GB 150.2-2011)
Appendix 2 Data Sheets from Figure 10-5 to Figure 10-15 (GB 150.3-2011)
Appendix 3 Pressure Vessel Flange Size References

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