Designing according the EN13445 code

    699.00 € 699.00 € 699.0 EUR

    699.00 €

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    Self-paced or e-Hybrid
    9 modules
    Daniel van Baalen, M.Sc.

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    Course Objective

    "To provide static equipment engineers with a solid understanding of the design basis of the EN13445 design code." 

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    1-year unlimited access

    PDH Hours qualified course

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    About the course


       9x modules

       7.5 hrs of videos


      1-yr access


    The EN13445 design code is the harmonized design code for unfired pressure vessel design under the Pressure Equipment Directive (2014/68/EU). Often the rules are applied using automated software packages and the engineer can lose the overview of the calculation being performed.

    This course explains the fundamental equations and principles in these design rules. For example: What is the area replacement rule? How is the Taylor and Forge method applied? What inner-stiffener distance is required to prevent collapse under vacuum, and why? What is the difference between primary and secondary stresses, and how is this evaluated in the code?

    Next to explaining the rules and how to apply them, participants are challenged on why a rule is formulated in a particular way and show important differences with ASME BPVC Section VIII Division 1 code.

    Download Brochure

    Course Brochure for Designing according the EN13445 code

    Meet your instructor

    Daniel van Baalen, MSc

    Project Engineer

    Mechanical, Piping, FEA, Flow

    Program & Details

    1. Welcome to the course

    2. Your instructors

    3. Live session schedule

    4. How to use this course & join the live sessions

    5. Personal Certificate requirements

    Module 1 Introduction to EN13445 (Free Course Preview) 1hr
    1. Introduction

    2. Scope

    3. Materials

    4. Brittle failure & creep

    5. Module 1, Exercise 1

    6. Welds and discontinuities

    7. Fatigue analysis

    8. Wall thickness & corrosion

    9. Hydrostatic test pressure

    A sample of the first module is available for free, so you can learn more about the teaching style and understand if the course fits your needs.

    1. Intro: Stress definitions

    2. Stress/Strain relationships

    3. Stress/Strain relationships

    4. Load cases

    5. Maximum design stress

    6. Module 2, Exercise 1

    1. Intro: Shell design

    2. Cylindrical shells

    3. Spherical shells

    4. Formed ends

    5. Cones and conical sections

    6. Cone to cylinder transition

    7. Module 3, Exercise 1

    1. Intro: Shell design

    2. Cylindrical shells

    3. Cylinder with Stiffeners

    4. Module 4, Exercise 1

    5. Cones

    6. Shell ends

    1. Intro: Vessel openings

    2. Pressure area method

    3. Analysis of a set-on nozzle 

    4. Adjacent openings

    5. Special cases 

    6. Module 5, Exercise 1

    1. Intro: Flat ends & flanges

    2. Clause 10: Flat Ends

    3. Flange types

    4. Taylor-Forge flange check

    5. Pressure rating method 

    6. Flange analysis 

    7. Module 6, Exercise 1

    1. Intro design-by-analysis

    2. What is design-by-analysis?

    3. The equivalent stress

    4. Module 7, Exercise 1

    5. Stress Decomposition

    6. Stress assessment

    7. Stress decomposition 

    8. Instability & Buckling

    9. Module 7, Exercise 2

    1. Intro: Fatigue assessment

    2. Simplified fatigue check

    3. Detailed fatigue assesment

    4. Fatigue safety factor 

    5. Comparing fatigue checks

    6. Module 8, Exercise 1

    1. Intro: Heat exchangers

    2. Types of heat exchagers

    3. Tubesheet thickness

    4. Module 9, Exercise 1

    5. Alternative methodes 

    6. Bellows & expansion joints

    7. Rectangular vessels

    8. Applied forces & moments

    9. Lifting lugs

    10. Saddle supports

    11. Supports

    1. Congratulations

    2. Course evaluation survey

    3. Your Personal Certificate

    4. Rate this course

    5. Related resources & follow up


    After this course, you...

    • understand the structure & scope of the code,

    • understand the failure mechanisms considered in the code,

    • are able to use the design rules for many components, amongst others cylindrical shells under internal & external pressure, openings and nozzles, flat ends and flange connections, heat exchanger tube sheets, rectangular shells and saddles and skirts,

    • understand the role of Design by analysis (Finite Element Analysis) for EN13445 design,

    • can identify the limitations of the design rules,

    • know the important differences with the ASME BPVC VIII-1.

    Who should attend this course

    • Those required to design pressure vessels as per the EN13445 and that want a solid overview and understanding of the design methods used in the code.

    • Engineers that already have experience with the EN13445 and that want to improve their understanding of the backgrounds for the different rules and methods applied in the code.

    • Technicians involved in the production of EN13445 unfired pressure vessels that want a solid understanding of the design basis of their vessels.

    Prerequisites: None

    Level: Foundations

    Access to the course. 
    After your purchase is confirmed you receive an account to the EngineeringTrainer online learning portal, where you find the course in your dashboard. After opening the course you will be guided step-by-step through the different modules. You receive 1-year unlimited access to the course. This allows you to perform modules again if this is beneficial for your work projects.

    Learn by doing.
    The course is mainly based on video content: video lectures and video software demonstrations. English subtitles is available and videos can be viewed as many times as desired. The video lectures help you to grasp the important technical concepts and in the video demonstrations the instructor uses the software and discusses all the steps and actions. You are recommended to follow the steps of the instructor in the software to optimize your learning curve.

    Exercises are available in the form of multiple choice quizzes to help you grasp technical concepts and in the form of .pdf-files with instructions to build and analyze different models and answer related questions. Video demonstrations of the exercises are available.

    This course is self-paced and is not subject to specific dates. The course contains 9 modules with a total of 7 hours of content which can be performed at your own pace. A Personal Certificate will be provided to you if you finish the course within the first month after purchase. This incentive will motivate you to perform the course quickly thereby improving your learning curve.

    You receive 1-year unlimited access to all 6 modules. This allows you to perform modules again whenever you want to refresh knowledge for your daily work projects.

    A personal digital certificate will be made available to each participant upon successful completion.

    Example Certificate:

    Example Certificate of Completion


    • Video lectures

    • Video demonstrations

    • PDF exercises

    • Exercise answers by demonstrations (video)

    • Multiple choice questions that help understand technical concepts

    The majority of training material are videos. These are not available for download, but can be accessed directly with your account on the portal. Apart from quizzes the exercise files can be downloaded. These can include .pdf files with the exercise questions, software models or other file types. You receive 1-year unlimited access to the course. This allows you to watch content again if this is beneficial for your work projects.

    We encourage participants to submit feedback and questions. These form the basis for new, future videos that will be added to the online course, but they will not be answered to the student directly.

    Participants receive 1-year unlimited access to the course including new videos that are added during this year. Participants receive an email notification upon addition of new course videos.

    No software is used for this course or will be distributed.

    Yes, this course qualifies for PDH hours as per the NCEES CPC Guidelines.

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    Training Coordinator & Engineer Luuk Hennen, MSc

    Luuk Hennen    
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