Pressure Vessel Design Manual Illustrated procedures for solving major pressure vessel design problems 3rd Edition by Dennis R Moss ISBN 0750677406 9780750677400

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Product details:

ISBN 10: 0750677406 
ISBN 13: 9780750677400
Author: Dennis R Moss

A pressure vessel is a container that holds a liquid, vapor, or gas at a different pressure other than atmospheric pressure at the same elevation. More specifically in this instance, a pressure vessel is used to ‘distill’/’crack’ crude material taken from the ground (petroleum, etc.) and output a finer quality product that will eventually become gas, plastics, etc.

This book is an accumulation of design procedures, methods, techniques, formulations, and data for use in the design of pressure vessels, their respective parts and equipment. The book has broad applications to chemical, civil and petroleum engineers, who construct, install or operate process facilities, and would also be an invaluable tool for those who inspect the manufacturing of pressure vessels or review designs.

• ASME standards and guidelines (such as the method for determining the Minimum Design Metal Temperature)are impenetrable and expensive: avoid both problems with this expert guide
• Visual aids walk the designer through the multifaceted stages of analysis and design
• Includes the latest procedures to use as tools in solving design issues

Pressure Vessel Design Manual Illustrated procedures for solving major pressure vessel design problems 3rd Table of contents:

Chapter 1: Stresses in Pressure Vessels

• Design Philosophy
• Stress Analysis
• Stress/Failure Theories
• Failures in Pressure Vessels
• Loadings
• Stress
• Special Problems
• References

Chapter 2: General Design

• Procedure 2-1: General Vessel Formulas
• Procedure 2-2: External Pressure Design
• Procedure 2-3: Calculate MAP, MAWP, and Test Pressures
• Procedure 2-4: Stresses in Heads Due to Internal Pressure
• Procedure 2-5: Design of Intermediate Heads
• Procedure 2-6: Design of Toriconical Transitions
• Procedure 2-7: Design of Flanges
• Procedure 2-8: Design of Spherically Dished Covers
• Procedure 2-9: Design of Blind Flanges with Openings
• Procedure 2-10: Bolt Torque Required for Sealing Flanges
• Procedure 2-11: Design of Flat Heads
• Procedure 2-12: Reinforcement for Studding Outlets
• Procedure 2-13: Design of Internal Support Beds
• Procedure 2-14: Nozzle Reinforcement
• Procedure 2-15: Design of Large Openings in Flat Heads
• Procedure 2-16: Find or Revise the Center of Gravity of a Vessel
• Procedure 2-17: Minimum Design Metal Temperature (MDMT)
• Procedure 2-18: Buckling of Thin-Walled Cylindrical Shells
• Procedure 2-19: Optimum Vessel Proportions
• References

Chapter 3: Design of Vessel Supports

• Support Structures
• Procedure 3-1: Wind Design per ASCE
• Procedure 3-2: Wind Design per UBC-97
• Procedure 3-3: Seismic Design for Vessels
• Procedure 3-4: Seismic Design – Vessel on Unbraced Legs
• Procedure 3-5: Seismic Design – Vessel on Braced Legs
• Procedure 3-6: Seismic Design – Vessel on Rings
• Procedure 3-7: Seismic Design – Vessel on Lugs #1
• Procedure 3-8: Seismic Design – Vessel on Lugs #2
• Procedure 3-9: Seismic Design – Vessel on Skirt
• Procedure 3-10: Design of Horizontal Vessel on Saddles
• Procedure 3-11: Design of Saddle Supports for Large Vessels
• Procedure 3-12: Design of Base Plates for Legs
• Procedure 3-13: Design of Lug Supports
• Procedure 3-14: Design of Base Details for Vertical Vessels #1
• Procedure 3-15: Design of Base Details for Vertical Vessels #2
• References

Chapter 4: Special Designs

• Procedure 4-1: Design of Large-Diameter Nozzle Openings
• Procedure 4-2: Design of Cone-Cylinder Intersections
• Procedure 4-3: Stresses at Circumferential Ring Stiffeners
• Procedure 4-4: Tower Deflection
• Procedure 4-5: Design of Ring Girders
• Procedure 4-6: Design of Baffles
• Procedure 4-7: Design of Vessels with Refractory Linings
• Procedure 4-8: Vibration of Tall Towers and Stacks
• References

Chapter 5: Local Loads

• Procedure 5-1: Stresses in Circular Rings
• Procedure 5-2: Design of Partial Ring Stiffeners
• Procedure 5-3: Attachment Parameters
• Procedure 5-4: Stresses in Cylindrical Shells from External Local Loads
• Procedure 5-5: Stresses in Spherical Shells from External Local Loads
• References

Chapter 6: Related Equipment

• Procedure 6-1: Design of Davits
• Procedure 6-2: Design of Circular Platforms
• Procedure 6-3: Design of Rectangular Platforms
• Procedure 6-4: Design of Ladder Support Clips
• Procedure 6-5: Design of Ladders
• Procedure 6-6: Design of Bins and Elevated Tanks
• Procedure 6-7: Agitators/Mixers for Vessels and Tanks
• Procedure 6-8: Design of Pipe Coils for Heat Transfer
• Procedure 6-9: Field-Fabricated Spheres
• References

Chapter 7: Transportation and Erection of Pressure Vessels

• Procedure 7-1: Transportation of Pressure Vessels
• Procedure 7-2: Erection of Pressure Vessels
• Procedure 7-3: Lifting Attachments and Terminology
• Procedure 7-4: Lifting Loads and Forces
• Procedure 7-5: Design of Tail Beams, Lugs, and Base Ring Details
• Procedure 7-6: Design of Top Head and Cone Lifting Lugs
• Procedure 7-7: Design of Flange Lugs
• Procedure 7-8: Design of Trunnions
• Procedure 7-9: Local Loads in Shell Due to Erection Forces
• Procedure 7-10: Miscellaneous

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