Learn CAESAR II : The complete pipe stress analysis course
Learn everything you need to know about pipe stress analysis using CAESAR II software, from beginner to expert – 2022
Note: 0/5 (0 notes) 229 students
Instructor(s): Engineering Training Academy
Last update: 2022-04-20
What you’ll learn
- Basics of pipe stress analysis
- Types of loads, stresses and loads combinations on piping systems as per ASME code
- ASME Code requirements for pipe stress analysis
- Types of piping supports [Rigid supports, Variable supports, Hangers…etc]
- How to use CAESAR II software to create any piping 3D Model
- How to add and define different piping fittings such as bends, Tees, Flanges, Valves, Expansion bellows…etc
- How to model pumps & vessels nozzles in CAESAR II software
- How to interpret the stress analysis output and to optimize supports design
- How to compare system stresses and deformations with the code allowable limits
- No experience needed, you will learn everything you need to know
This course is perfect for any engineer interested to start a career in pipe stress analysis but overwhelmed by many unorganized information and doesn’t know from where to start.
This course is designed to guide you through pipe stress analysis process starting from scratch till being able to understand piping isometric drawings, creating a full 3D analysis model, choosing supports types & locations, checking code requirements and finalizing the design drawings/report.
This course consists of 4 sections which are as following :-
Section One :-
In this section, you will learn the very basics of the pipe stress analysis including when & why do we have to carry out pipe stress analysis, and the main concepts such as
– Loads & stresses on the system
– Loads combinations
– ASME Code compliance
– Supports optimization.
– Pipe stress analysis workflow
Once you are familiar with the pipe stress analysis workflow, you will be ready for the following section
Section Two :-
In this section you will learn how to create a new model from scratch and how to model many components such as pipe bends, tees, valves, expansion bellows, pumps and basically any kind of fitting might be in your system.
Also, during modeling you will learn multiple advanced techniques such as
– How to model pumps nozzle
– How to model surge vessels
– How to model steel structures
And many other modelling modifications techniques such as stretching, mirroring, adding segments…etc.
Once the 3D modeling is finalized, you will be ready for the following section
Section Three :-
In the third section, you will start investigating the output results of the analysis including the system deformations, stresses, pump nozzle loads, supports optimization, and we will learn how to understand and asses the system’s behavior and how to fix any failing segments of the system.
you will also learn some valuable techniques for pipe rerouting such as expansion loops.
Section Four :-
In this section, you are going to learn about underground pipe stress analysis including the following
– What 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 pipelines
And many other important information about underground pipeline systems
Extra Resources :-
By the end of the course, and as extea resource, you will receive multiple CAESAR II models files which we have used during our course, this will give you a chance to train and enhance your modeling skills.
Who this course is for
- Engineers who want to learn pipe stress analysis basics for beginners and intermediate level
- Engineers who want to learn 3D piping modeling on CAESAR II software
- Beginner pipe stress analysts who want to enhance their knowledge and modeling skills
- Engineers into process piping field
- Engineers into infrastructure water field
- Engineers into Petroleum or Oil & Gas field
- Pipe stress analysis basics
- Course introduction
- What is pipe stress analysis ?
- Types of loads & stresses
- Loads combinations & code compliance
- Types of supports
- Pipe stress analysis workflow
- About CAESAR II software
- CAESAR II 3D Modeling
- Creating new model configuration
- Modeling pipe geometry
- Modeling pipe fittings including bends, tees & reducers
- Modeling valves & flanges
- Modeling pump nozzles
- Copy & paste & Stretching elements
- Adding rigid supports
- Adding trunnion supports
- Modeling & design of hangers
- Modeling steel structures
- Integration between piping and structural models
- Modeling surge vessel nozzle
- Adding wind/siesmic loads
- Running error checker
- Manual model checking
- Setting up load cases
- Pipe stress analysis output
- Output processor
- Checking system deformations
- Code compliance check
- Optimizing supports
- Optimizing supports [ Expansion loop ]
- Checking forces on supports
- Checking forces on pumps nozzles
- Checking forces on surge vessels nozzles
- Underground pipeline modeling
- Underground pipeline systems
- Modeling of underground pipelines on CAESAR II
- Underground pipeline example on CAESAR II
- Conclusion & Additional tips
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