Advanced Dynamic Piping Stress Analysis Caesar Ii & Autopipe

Advanced piping stress analysis course for dynamic loads such as water hammer, slug flow..etc on CAESAR II & AutoPIPE

What you'll learn
Advanced techniques for piping stress analysis
Flange leak and flange failure analysis on both CAESAR II and AutoPIPE
Understanding dynamic loads and un-steady loads
Underground pipeline stress analysis on both CAESAR II and AutoPIPE
Understanding and modeling of water hammer loads on both CAESAR II and AutoPIPE
Introduction to Subsea pipeline stability and stress analysis
Understanding and modeling of slug flow loads in multiphase flow on both CAESAR II and AutoPIPE
Waves and buoyancy loads on subsea pipelines
Understanding and modeling of pressure relief forces on both CAESAR II and AutoPIPE
Preparation of professional piping stress analysis course
Wind & seismic analysis for piping systems
All of these skills and more shall be demonstrated on both CAESAR II and AutoPIPE software separately
Requirements
Basic understanding of piping stress analysis
Basic knowledge of CAESAR II & AutoPIPE software
Description
This course has been prepared for engineers who have basic understanding of piping stress analysis including static loads, and want to take their skills into next level.This course consists of 4 sections which are as following :-Section One :-In this section you are going to learn about the different types of dynamic and harmonic loads on piping systems and advanced skills such as :-Un-steady loads Water hammer loads (Using dynamic - Time history method)Slug flow force (Static & Dynamic - Time history method)Pressure relief forceWind & Seismic analysisHow to carry out Time history analysisAlso you will learn how to carry out Flange failure check on your system using the following methodsEquivalent pressure methodANSI Code methodNC Code methodASME Code methodAll of above, shall be demonstrated separately on both softwares CAESAR II and AutoPIPE.Section Two :-In this section, you are going to learn about underground pipe stress analysis including the followingWhat is the difference between piping and pipeline ?Why do we have to do pipe stress analysis for underground pipeline ?When do we have to do it ?How different is pipe stress analysis for underground pipeline vs above ground]Supporting systems for underground pipelinesAnd many other important information about underground pipeline systemsAll of above, shall be demonstrated separately on both softwares CAESAR II and AutoPIPE.Section Three :-In this section, you are going to learn about  subsea pipeline design, including on-bottom stability for subsea pipeline, waves and buoyancy loads on subsea pipelines and subsea pipelines stability counterweight block (Concrete ballasts).And how to create a pipe stress analysis model for a subsea pipelineAll of that shall be demonstrated separately on both of CAESAR II and AutoPIPE software.Section Four :-In the last chapter, you are going to learn how to present your output results in a professionally created piping stress analysis report, including a sample report for real life projects in the middle east.All of that, makes this course the most comprehensive course to take your piping stress analysis skills to another level on both CAESAR II and AutoPIPE software

Overview

Section 1: Introduction

Lecture 1 Introduction about the course

Section 2: Advanced piping stress analysis

Lecture 2 Steady vs unsteady flow

Lecture 3 What is water hammer ?

Lecture 4 Water hammer in AutoPIPE

Lecture 5 Multiphase flow (Slug flow)

Lecture 6 Slug flow in Caesar II - Static method

Lecture 7 Slug flow in AutoPIPE - Static method

Lecture 8 Slug flow in Caesar II - Dynamic method

Lecture 9 Slug flow in AutoPIPE - Dynamic method

Lecture 10 Pressure relief valve loads

Lecture 11 Relief loads in CAESAR II

Lecture 12 Relief loads in AutoPIPE

Lecture 13 Wind & seismic loads in Caesar II

Lecture 14 Wind & seismic loads in AutoPIPE

Lecture 15 Introduction about flange failure

Lecture 16 Flange check in CAESAR II - ANSI Code (Equivalent pressure method)

Lecture 17 Flange check in CAESAR II - NC Code method

Lecture 18 Flange check in CAESAR II - ASME Code method

Lecture 19 Flange failure check in AutoPIPE

Section 3: Underground pipeline stress analysis

Lecture 20 Underground pipeline systems

Lecture 21 Underground pipeline modeling in CAESAR II

Lecture 22 Underground pipeline modeling in AutoPIPE

Section 4: Subsea pipeline design

Lecture 23 Introduction about subsea pipeline

Lecture 24 Subsea pipeline design procedure

Lecture 25 Subsea pipeline wall thickness calculations

Section 5: Piping stress analysis report

Lecture 26 Analysis report preparation

Section 6: Conclusion

Lecture 27 Conclusion

Engineers who want to enhance their piping stress analysis skills to an advanced level,Engineers who want to enhance their modeling skills on CAESAR II and AutoPIPE,Engineers into process piping field,Engineers into infrastructure water field,Engineers into Petroleum or Oil & Gas field