| Week | Focus Area | Deliverable | |-------|------------------------------------------|------------------------------------------| | 1 | Interface, equipment primitive modeling | 5 pieces of equipment with correct sizes | | 2 | Piping – straight runs, elbows, tees | Simple pipe loop between two nozzles | | 3 | Branches, reducers, valves, specs | Pipe with reducers and gate valve | | 4 | Supports & sloping lines | Pipe with 1:100 slope and supports | | 5 | Structural steel + pipe clash check | Pipe routed through a steel rack | | 6 | Isometric extraction, BOM | Iso drawing + material list | | 7 | Multi-user environment | Team project: split model areas | | 8 | Final project & exam | Complete mini-plant with all drawings |
A comprehensive is not just a list of software commands – it is a roadmap to becoming a productive plant designer. The best syllabi integrate hands-on piping modeling, clash detection, and deliverable extraction, all within a multi-user database context. When evaluating a PDMS course, check that it includes at least 40 hours of piping practice , structured clash exercises , and GA/isometric output – these are the non-negotiable core. Without those, you will learn buttons, not design. pdms course syllabus
The PDMS course is designed for:
PDMS (now commonly referred to as E3D’s predecessor, though still widely taught) is a flagship software for 3D plant design in industries like oil & gas, petrochemicals, power generation, and pharmaceuticals. A standard PDMS course syllabus is structured to take a beginner from basic interface navigation to generating clash-free, construction-ready deliverables. | Week | Focus Area | Deliverable |