|
Code |
Format |
Currency |
Individual Pricing Per Person |
Duration* |
|
|
PEEL072 |
E-Learning |
EUR |
960 |
240 hours |
*– Duration is an estimated minimum based on number of slides, audio comments, number of quizzes and exercises.
About this Training
This training program provides a structured path into the design of mechanical equipment used in industrial plants. It focuses on practical engineering application and code-based design.
It connects the main areas of mechanical equipment design: material selection, piping systems, pressure vessels, shell-and-tube heat exchangers and storage tanks. Through this approach, participants see how equipment is defined, calculated, verified and documented in industrial projects.
The course is suitable for participants with a technical background. It is especially relevant for those who want to develop or strengthen their practical design skills. At the same time, previous specific experience in the subject is not required. However, the course develops intermediate to advanced topics through codes, calculations and practical case studies.
The course is delivered 100% online and on-demand, allowing participants to study at their own pace. Instructor support will be provided through the consultation forum on the Virtual Campus. Participants will have one year of access to the platform to complete the course.
Course Outline
This course covers the main technical requirements and engineering practices needed to design mechanical equipment for industrial plants in accordance with commonly used codes and standards, including ASME B31, ASME Section VIII, TEMA and API 650.
Participants will learn how to define design conditions, identify applicable load cases, select suitable materials, evaluate corrosion considerations, calculate required thicknesses, and apply code-based design criteria to piping systems, pressure vessels, shell-and-tube heat exchangers and storage tanks.
The course also addresses design verification topics such as piping layout and flexibility, internal and external pressure, buried piping, nozzles and flanges, equipment supports, wind and seismic loads, stiffening elements, anchor bolts and tank stability. Practical case studies and calculation spreadsheets are used throughout the course to connect theoretical concepts with industrial design practice.