EngoSoft
Firefighting Design System

Firefighting Design System

Mechanical
145 USD

  • Types of sprinkler systems and how to select the appropriate system based on project hazard classification.
  • Designing fire fighting networks using Elite software in accordance with local codes.
  • Mastering hydraulic calculations and defining pump room requirements and safety equipment.
  • Calculating water tank capacity and determining flow rates to ensure optimal system performance.

Course Content

Unit 01: Fire Fighting Fundamentals0h
  • Introduction to Fire
  • Codes Used in Firefighting System Design
  • Building Type & Hazard Classification
  • Building Fire Protection Requirements (1)
  • Building Fire Protection Requirements (2)
  • Building Fire Protection Requirements (3)
  • Building Fire Protection Requirements (4)
Unit 02: Fire Fighting Network Components and Requirements0h
  • Components of Fire Fighting Network
  • Valves Used in Fire Fighting Network
  • Classification of Fire Fighting Cabinets
  • Components of Manual Fire Fighting Network
  • Requirements for Fire Fighting Cabinets
  • Water Supply Requirements for Cabinets (1)
  • Water Supply Requirements for Cabinets (2)
  • Types of Risers (Wet and Dry)
  • Distribution of Fire Fighting Cabinets (1)
  • Distribution of Fire Fighting Cabinets (2)
  • How to Perform Hydraulic Calculations Manually
Unit 03: Hydraulic Calculations for Cabin Networks0h
  • Hydraulic Calculations Using Elite Fire (1)
  • Hydraulic Calculations Using Elite Fire (2)
  • Hydraulic Calculations Using Elite Fire (3)
  • Hydraulic Calculations Using Elite Fire (4)
  • Hydraulic Calculations (1)
  • Hydraulic Calculations Using Elite Fire (5)
  • Hydraulic Calculations (2)
  • Water Distribution on Two Risers
Unit 04: Pump Room Design and Network Troubleshooting0h
  • Introduction to Pump Room Components
  • How to Define and Draw Pipe Locations Inside the Fire Fighting Tank
  • Drawing a Section of the Tanks and Showing Pipe Locations
  • Defining Pump Locations Inside the Pump Room
  • Drawing a Section of the Electric Fire Pump
  • Drawing a Section of the Diesel Fire Pump
  • Drawing a Section of the Standby Fire Pump
  • Drawing the Test Line on the Header in the Pump Room
  • Identifying and Solving Conflicts with Network Valves (1)
  • Identifying and Solving Conflicts with Network Valves (2)
  • Identifying and Solving Conflicts with Network Valves (3)
Unit 05: Sprinkler Systems0h
  • Introduction to Wet Sprinkler System
  • Introduction to Dry Sprinkler System
  • Introduction to Pre-Action and Deluge Systems
  • Sprinkler Classification (1)
  • Sprinkler Classification (2)
  • Sprinkler Piping Network Requirements
  • Special Sprinkler Head Assemblies
  • Sprinkler Distribution (1)
  • Sprinkler Distribution (2)
  • Pipe Sizing for Sprinkler Network
Unit 06: Sprinkler Distribution0h
  • Sprinkler Distribution Examples (1)
  • Sprinkler Distribution Examples (2)
  • Sprinkler Distribution Examples (3)
  • Sprinkler Distribution for Basement
  • Sprinkler Distribution for Ground Floor (1)
  • Sprinkler Distribution for Ground Floor (2)
  • Sprinkler Distribution for First Floor (1)
  • Sprinkler Distribution for First Floor (2)
  • Sprinkler Distribution for Second Floor (1)
  • Sprinkler Distribution for Second Floor (2)
Unit 07: Fire Fighting Network Design0h
  • Drawing Fire Fighting Network for Sprinklers (1)
  • Drawing Fire Fighting Network for Sprinklers (2)
  • Defining Fire Fighting Network Pipe Sizes (1)
  • Defining Fire Fighting Network Pipe Sizes (2)
  • Introduction to Hydraulic Calculations for Sprinklers
  • How to Define the Most Hazardous Area in the Project
  • How to Number the Pipes for Use in Elite Software
  • Hydraulic Calculations for Sprinklers (1)
  • Hydraulic Calculations for Sprinklers (2)
  • Hydraulic Calculations for Sprinklers (3)
Unit 08: Fire Fighting Network Design and Pumps0h
  • Drawing Fire Fighting Network with Sprinklers and Cabinets
  • Hydraulic Calculations for Fire Fighting Network with Sprinklers and Cabinets (1)
  • Hydraulic Calculations for Fire Fighting Network with Sprinklers and Cabinets (2)
  • Introduction to Fire Fighting Pumps
  • How to Select Correct Operating Points for Fire Fighting Pumps
  • Drawing Pump Room (1)
  • Drawing Pump Room (2)
Unit 09: Fire Protection Systems and Gas Extinguishing0h
  • Fire Classification
  • Types of Manual Fire Extinguishers
  • Introduction to Automatic Gas Fire Extinguishing Systems
  • Components of Automatic Gas Fire Extinguishing Systems
  • Calculations for Determining the Required Gas Quantity for Extinguishing
  • Example of Determining the Required CO2 Gas Quantity for a Room
  • Gas Requirements for Fire Extinguishing
  • Gas Protection Systems for Electrical Panels
  • Application of Determining the Required Gas Quantity for Extinguishing

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, maintenance engineers, and technicians working in the fire fighting field, as well as project managers and team leaders who seek to develop their skills in fire protection system design.

Do I need prior experience in fire fighting system design?

Advanced experience is not required; however, a basic understanding of fluid mechanics and hydraulic systems is recommended to ensure maximum benefit from the course.

Is the course theoretical or practical?

The course combines theoretical instruction with practical application, with a strong focus on hydraulic calculations and real-world case studies from actual projects.