EngoSoft
Medical Gas Systems Design

Medical Gas Systems Design

Mechanical
130 USD

  • Identify the types of medical gases used in hospitals and understand the function of each system across different rooms and healthcare departments
  • Determine the locations and distribution of gas outlets within rooms based on service type, number of beds, and operational requirements.
  • Calculate gas flow rates and size the appropriate source capacities in compliance with project needs and European code standards.
  • Select the optimal gas source system (Manifold, VIE, or PSA) and define the required backup to ensure continuous operation.
  • Determine pipe diameters, pressure losses, and network requirements to ensure efficient distribution and stable pressure at all points of use.
  • Understand the network components from the source to the final outlet, including valves, alarm systems, and control panels.
  • Design complete medical gas networks in accordance with European codes, from capacity calculations to equipment selection.
  • Prepare drawings, define valve locations and pipe routing, and understand system control and monitoring methods to ensure safe and reliable performance.

Course Content

Unit 01: Fundamentals of Medical Gas Systems0h
  • Introduction
  • MG Types-01
  • MG Types-02
  • MG Valves and Symbols
  • MG Components
  • MG Labelling
  • Pressure Definitions
Unit 02: Medical Gas Infrastructure0h
  • O2 Cylinder Manifold Systems
  • O2 VIE System
  • Liquid Cylinder & PSA
  • N2O Systems
  • MA Sources
  • MA Systems
  • SA Systems
  • MV Systems
Unit 03: Medical Gas Piping Systems0h
  • piping system
  • TU Arrangement and Height
  • TU Arrangement and Height
  • TU Connection type
  • Departments and Rooms
  • Provision of TU, AVSU, Alarm
  • TU Distribution in hospital project
  • MG Zone Control Box Postioning
  • MG Pipe Routing (1)
  • MG Pipe Routing (2)
  • MG Pipe Routing (3)
  • MG Pipe Routing (4)
Unit 04: Medical Gas Source Sizing and Volume0h
  • O2 Gas Source Volume (1)
  • O2 Gas Source Volume (2)
  • N2O Gas Source Volume
  • MA Gas Source Volume
  • SA Gas Source Volume
  • Gas Source Calculation Sheet
  • O2 Gas Source Sizing
  • N2O Gas Source Sizing
  • MA Gas Source Sizing
  • MV-AGSS Gas Source Sizing
Unit 05: Medical Gas Piping & Pressure Drop0h
  • Pipe Pressure Drop 4 bar Systems
  • Pipe Pressure Drop 7 bar Systems
  • Pipe Pressure Drop Vacuum Systems
  • Pipeline Pressure loss Calculation sheet
  • N2O - O2 Pipe Sizing
  • N2O Pipe Sizing
  • AGSS Pipe Sizing
  • MA Pipe Sizing
  • O2 Pipe Sizing (1)
  • O2 Pipe Sizing (2)
  • MV Pipe Sizing
  • MG Piping Annotation

Instructors

Eng. Michael Adel
Eng. Michael Adel

Engineer Michael Adel is a distinguished expert in mechanical engineering, combining theoretical knowledge with practical experience. He offers hands-on training that enables engineers and technicians to directly transform knowledge into applicable skills for real-world projects.

Eng. Michael Adel
Eng. Michael Adel

Engineer Michael Adel is a distinguished expert in mechanical engineering, combining theoretical knowledge with practical experience. He offers hands-on training that enables engineers and technicians to directly transform knowledge into applicable skills for real-world projects.

FAQ

Who is this course for?

This course is designed for mechanical engineers and professionals interested in designing medical gas systems in hospitals and healthcare facilities.

Do I need prior experience with medical gases?

No prior experience is required. A basic understanding of pressure, flow, and industrial systems is sufficient.

Is the course theoretical or practical?

The course combines theoretical lessons with hands-on practice, focusing on network design, load calculations, and equipment selection.

Do I need prior knowledge of AutoCAD?

Basic knowledge is preferred, but the fundamentals can be learned during the course.

What is the required academic qualification?

Applicants are preferably holders of a Bachelor’s or Diploma in Mechanical Engineering, Mechatronics, Power Engineering, or any MEP-related field.