Industrial Training of Pressure Vessel Analysis As Per Design By Analysis Approach of ASME BVPC Section VIII Division II Part 5

About Course

Description:

Graspfea’s Design-By-Analysis course aims to acquaint participants with the Design-By-Analysis segment of ASME Code Section VIII, Division 2, Part 5. Delving into the regulations and recommendations outlined in Part 5, the course serves as a comprehensive initiation into the intricacies of executing Design-By-Analysis according to the ASME Code. Participants will receive in-depth instruction on conducting finite element analysis in adherence to the Code. The curriculum includes the presentation and discussion of example problems, illustrating the application of various common rules. While designed for engineers already familiar with pressure vessel and piping design seeking additional insights into Design-By-Analysis principles, the course is open to those without prior experience in finite element analysis, although a foundational understanding would be beneficial.

Course Content

Module-1: Overview of the Course
Overview of Course

Chapter-1 Overview of Course & Instructor Guidance

18:35

Module-2: Introduction to Pressure Vessel and Design By Analysis Overview
Introduction to Pressure Vessel and Design By Analysis

Module-3: Essentials of Design By Analysis
This module exaplians essentials required to perform Design By Analysis

Module-4: Essentials of Finite Element Analysis for Pressure Vessel Simulation
This module exaplians essentials required to perform Finite Element Analysis of pressure vessel

Module-5: Geometry Editing and Modeling (CAD)
This module explain the geometry editing and modeling required for pressure vessel analysis

Module-6: FEA Model Creation (Meshing)
This module explain the mesh creation for analysis purpose

Module-7: Elastic Stress Analysis Method
This module explains the Elastic stress analysis method to find out the plastic collapse load. It includes Introduction to Elastic stress method along with few examples.

Module-8: Limit Load Analysis Method
This module explains the Limit load analysis method to find out out the plastic collapse. It includes introduction to limit load and few practical examples.

Module 9: Elastic Plastic Analysis Method

Module 10: Protection Against Local Failure

Module 11: Protection Against collapse from buckling

Module 12: Fatigue Analysis Concepts and Definitions

Module 13: Screening Criteria for Fatigue Analysis

Module 14: Fatigue Elastic Stress Analysis And Equivalent Stresses

Module 15: Fatigue Elastic-Plastic Analysis And Equivalent Strains

Module 16: Fatigue Elastic Stress Analysis, and Structural Stress (Weld Fatigue)

Module 17: Protection Against Ratcheting Using Elastic Stress Analysis

Module 18: Protection Against Ratcheting Using Elastic-Plastic Stress Analysis

Module 19: Advanced Simulation Example

Module 20: Structural Analysis Report

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About Course

What Will You Learn?

Course Content

Module-1: Overview of the Course Overview of Course

Chapter-1 Overview of Course & Instructor Guidance

Module-2: Introduction to Pressure Vessel and Design By Analysis Overview Introduction to Pressure Vessel and Design By Analysis

Chapter-2 Introduction to Pressure Vessel and Design By Analysis

Chapter-3 ASME BVPC Section VIII Division 2 Stress Analysis Overview

Module-3: Essentials of Design By Analysis This module exaplians essentials required to perform Design By Analysis

Chapter-4 Introduction to Stress Categorization & Limits of Equivalent Stress

Chapter-5 Introduction to Stress Linearization

Chapter-6 Material Properties Extraction from ASME Section 2 Part D

Quiz – Essential of Design By Analysis

Module-4: Essentials of Finite Element Analysis for Pressure Vessel Simulation This module exaplians essentials required to perform Finite Element Analysis of pressure vessel

Chapter-7 Overview of ANSYS Mechanical

Chapter-8 FE Analysis Guidelines for process equipment’s

Chapter-9 Half Symmetry & Quarter Symmetry condition analysis

Chapter-10 Types of supports Conditions in pressure vessel (Fixed Support, Frictionless Support, Cylindrical Support, Elastic Support, Compression Only Support)

Module-5: Geometry Editing and Modeling (CAD) This module explain the geometry editing and modeling required for pressure vessel analysis

Chapter-12: Midsurface Exctraction ands Surface Weld Creation

Chapter-13: Vertical Pressure Vessel Modelling

Chapter-14: Horizontal Pressure vessel Modelling

Chapter 15 – Reinforcing Pad and Solid Weld Creation

Chapter-16: Torispherical Head to Shell Junction

CAD Quiz

Module-6: FEA Model Creation (Meshing) This module explain the mesh creation for analysis purpose

Chapter 17 – Horizontal Pressure vessel Meshing (Quarter Model)

Chapter-18: Heat Exchanger (Nozzle, Shell, Tubes, Tubesheet, Saddle & Head) Meshing

Quiz Meshing

Module-7: Elastic Stress Analysis Method This module explains the Elastic stress analysis method to find out the plastic collapse load. It includes Introduction to Elastic stress method along with few examples.

Chapter-19: Introduction to Elastic Stress Analysis Method

Chapter-20: Example-1, Axisymmetric Analysis of Vertical Pressure Vessel using Elastic Stress Analysis Method

Chapter-21: Example-2, Analysis of Nozzle in Cylindrical Shell Using Elastic Stress Analysis Method

Chapter-22: Example-3, Vertical Pressure Vessel Shell to Solid Submodeling Approach Using Elastic Stress Analysis Method

Chapter-23 – Example-4, Shell and Tube type Heat Exchanger Analysis Using Elastic Stress Analysis

Quiz On Elastic Stress Analysis Method

Module-8: Limit Load Analysis Method This module explains the Limit load analysis method to find out out the plastic collapse. It includes introduction to limit load and few practical examples.

Chapter 24: Introduction to Limit Load Analysis

Chapter 25: Example-1; Axisymmetric Analysis of Vertical Pressure Vessel

Chapter 26: Example-2, Torispherical Head knuckle Nozzle junction

Quiz Limit Load Analysis

Module 9: Elastic Plastic Analysis Method

Chapter 27: Introduction to Elastic Plastic Analysis

Chapter 28: Example-1, Axisymmetric Analysis of Vertical Pressure Vessel

Chapter 29 – Example-2 Vertical Pressure Vessel with Hemispherical Head & Skirt

Quiz Elastic Plastic Analysis

Module 10: Protection Against Local Failure

Chapter 30: Introduction to Protection Against Local Failure & Example 1, Axisymmetric Vertical Pressure Vessel

Chapter 31: Example-2, Nozzle in Cylindrical Shell

Module 11: Protection Against collapse from buckling

Chapter 32: Introduction to Protection Against collapse from buckling

Chapter 33 – Example-1, Axisymmetric Vertical Pressure Vessel (Buckling)

Quiz on Buckling Analysis

Module 12: Fatigue Analysis Concepts and Definitions

Chapter 35: Introduction to Fatigue Analysis Concepts and Definitions

Module 13: Screening Criteria for Fatigue Analysis

Chapter 36: Introduction to Screening Criteria For Fatigue Analysis- Method A & Example-1, Axisymmetric Vertical Pressure Vessel

Chapter 37: Introduction to Screening Criteria For Fatigue Analysis- Method B + Example 1 Axisymmetric Vertical Pressure Vessel & Example 2

Module 14: Fatigue Elastic Stress Analysis And Equivalent Stresses

Chapter 38: Introduction to Fatigue Elastic Stress Analysis And Equivalent Stresses

Chapter 39: Example-1, Axisymmetric Vertical Pressure Vessel

Chapter 40: Example-2, Horizontal Pressure Vessel (Fatigue Elastic)

Chapter 41: Example-3, Thermo-structural Fatigue Analysis of Shell and tube type Heat Exchanger Analysis

Module 15: Fatigue Elastic-Plastic Analysis And Equivalent Strains

Chapter 42: Introduction to Fatigue Elastic-Plastic Analysis And Equivalent Strains

Chapter 43: Example-1, Axisymmetric Vertical Pressure Vessel (Fatigue Elastic Plastic)

Module 16: Fatigue Elastic Stress Analysis, and Structural Stress (Weld Fatigue)

Chapter 45: Introduction to Fatigue Elastic Stress Analysis, and Structural Stress

Chapter 46: Example-1, Axisymmetric Vertical Pressure Vessel (Weld Fatigue)

Chapter 47: Example-2, Nozzle in Cylindrical Shell

Quiz on Fatigue Assessment

Module 17: Protection Against Ratcheting Using Elastic Stress Analysis

Chapter 48: Introduction to Protection Against Ratcheting & Example 1, Axisymmetric Analysis of Vertical Pressure Vessel

Module 18: Protection Against Ratcheting Using Elastic-Plastic Stress Analysis

Chapter 49: Introduction to Protection Against Ratcheting Using Elastic-Plastic Stress Analysis & Example-1 (Axisymmetric Vertical Pressure Vessel)

Quiz on Ratcheting Analysis