E-Book, Englisch, 443 Seiten
Annaratone Pressure Vessel Design
1. Auflage 2007
ISBN: 978-3-540-49144-6
Verlag: Springer Berlin Heidelberg
Format: PDF
Kopierschutz: 1 - PDF Watermark
E-Book, Englisch, 443 Seiten
ISBN: 978-3-540-49144-6
Verlag: Springer Berlin Heidelberg
Format: PDF
Kopierschutz: 1 - PDF Watermark
This book guides the reader through general and fundamental problems of pressure vessel design. The basic approach is rigorously scientific with a complete theoretical development of the topics treated. The concrete and precise calculation criteria provided can be immediately applied to actual designs. The book also comprises unique contributions on important topics like Deformed Cylinders, Flat Heads, or Flanges.
Autoren/Hrsg.
Weitere Infos & Material
1;Preface;5
1.1;1 Industrial Sectors Interested in Pressure Vessels;5
1.2;2 Current Know-How with Regard to Resistance Verification;5
1.3;3 Current State of Technical Literature;6
1.4;4 General Characteristics of the Book;6
1.5;5 Original Contributions of the Author to the Solution of Various Problems;7
2;Contents;8
3;Notation;10
4;1 Preliminary Considerations;12
4.1;1.1 Mechanical Characteristics of Steel;12
4.2;1.2 Allowable Stress;18
4.3;1.3 Theories of Failure;20
4.4;1.4 Plasticity Collaboration;24
4.5;1.5 Verification Criteria;29
5;2 General Calculation Criteria;34
5.1;2.1 Membrane Stresses in Revolution Shells;34
5.2;2.2 Edge Effects in Cylinders and Semispheres;37
5.3;2.3 Stress Concentration Around Holes;47
6;3 Cylinders Under Internal Pressure;58
6.1;3.1 General Design Criteria;58
6.2;3.2 Thick Cylinders;72
6.3;3.3 Thermal Stresses;74
6.4;3.4 Allowable Out of Roundness;88
6.5;3.5 Two-Wall, Multilayer, and Stiffened Cylinders;92
6.6;3.6 Partially Plastic Deformed Cylinders;111
6.7;3.7 Stresses Due to Thickness Variation;120
7;4 Cylinders Under External Pressure;138
7.1;4.1 Thick Cylinders;138
7.2;4.2 Thin Cylinders of Infinite Length;143
7.3;4.3 Stiffened Cylinders;150
7.4;4.4 Stiffening Rings;158
8;5 Spherical Vessels;166
8.1;5.1 Spheres Under Internal Pressure;166
8.2;5.2 Thick Spheres;176
8.3;5.3 Thermal Stresses;178
8.4;5.4 Partially Plastic Deformed Spheres;186
8.5;5.5 Spheres Under External Pressure;195
9;6 Heads;200
9.1;6.1 Hemispherical Heads;200
9.2;6.2 Dished Heads;210
9.3;6.3 Conical Heads and Truncated Cones;216
9.4;6.4 Flat Heads;222
10;7 Special Components and Tubes;252
10.1;7.1 Elliptical Tubes;252
10.2;7.2 Torus and Bended Tubes;255
10.3;7.3 Quadrangular Vessels;262
10.4;7.4 Flanges;277
10.5;7.5 Piping with Internal Warm Fluid;301
10.6;7.6 Expansion Compensators;308
11;8 The Influence of Holes;324
11.1;8.1 Hole Lines on Cylinders, Spheres, and Cones;324
11.2;8.2 High Thickness Nozzles and Equivalent Diameter;341
11.3;8.3 Isolated Holes on Cylinders, Spheres, and Cones: Y and T Branches;346
11.4;8.4 Flat Head with Central Hole;364
11.5;8.5 Drilled Plates;374
11.6;8.6 Holes in Quadrangular Vessels;381
12;9 The Influence of Supports;390
12.1;9.1 Cylindrical Vessels on Saddle Supports;390
12.2;9.2 Spherical Vessels Resting on a Parallel;398
12.3;9.3 Local Effects of Forces and Moments on Cylinders;407
12.4;9.4 Local Effects of Forces and Moments on Spheres;428
13;10 Fatigue Analysis;434
13.1;10.1 General Approach;434
13.2;10.2 Fatigue Curves;436
13.3;10.3 Vessels not Requiring Fatigue Analysis;439
13.4;10.4 Basic Criteria for Fatigue Analysis;442
14;Bibliography;448
15;Index;453
