Objectives:
Upon completion of this course, participants will have a thorough understanding of the fundamental concepts of Mechanical installations techniques. Participants will have in-depth knowledge of HVAC, Elevators,
Fire fighting
and fire alarm systems, Pumps, Drainage system,
Heating
system , isolation materials inside the buildings, equipment selection, proper operation,
trouble shooting
through
presentation of actual case studies.
Participants will divide into two or three groups and each group will receive a project and at the end of this course, each group will present their project design.
Who should attend:
The course should benefit engineering personnel responsible for Mechanical systems.
Daily Outlines:
Fire fighting and Fire Alarm systems
1.What is the fire
2. What is the fire fighting system
3.Classification of occupancies
4.Dead
end points
5.Travel
distances
6.Types of sprinkler systems
7.Types of sprinklers
8.Dry pipe sprinkler system
9.Deluge & Pre-action system
10.Refrigerated spaces
11.
Commercial type cooking equipment
12. Wet-pipe sprinkler system
13.Basic Design of Sprinkler systems
14.How to design a project
15.Sprinkler distribution inside the places
16.Water network distribution & sizing
17.Hydraulic calculation procedures and
fire fighting program
18.Training on how to use hydraulic calculation program
19.Installation
20.Testing and Commissioning
Introduction to HVAC
• What is Air-Conditioning?
• The Major processes of Air-Conditioning
• The Major applications of Air-Conditioning
• Selection of a system
• The Major HVAC system Types
• Heat transmission in building structures.
• Environmental Health and Indoor Air Quality
• Indoor air quality effects on comfort and health
• Equipment and design strategies for improving and maintaining acceptable indoor air quality
• Cooling Towers
Secondary system components
• Duct and Pipe systems
• Fans and Pumps
Central Systems
• Major HVAC system types
• Application of a basic central system
• Selection of system components
• Heating exchangers and cooling coils
• Variable Refrigerant Volume system (VRV)
• Adsorption system
All-Air systems
• Introduction to All-Air systems
• Single-duct, Single zone or Zoned reheat, Constant volume systems
• Variable Air Volume
• Dual duct system
• Three deck multi zone system
System Controls
• Control fundamentals
• Types of control action
• Air system procedures & air measurement .
• Water systems data .
• Test procedures.
Actual Project Case study
INTRODUCTION AND COMMON BASICS OF PLUMBING SYSTEMS
• Classification of water networks and its components.
• Performance parameters.
• Solvent system
• Cold water systems
• Design of Water networks.
Service water heating systems
• Methods of heat development
• Equipment thermal design parameter and basic types
Pipe sizing
• Supply pipe system
• Return piping system
• Water pressure-kitchen hot water supply
Water heating efficiencies and design considerations
• Water quality, corrosion
and scale
• Hot water utilization temperatures
• Hot water from storage tanks and storage systems
• Safety devices for hot water supply systems
• Estimate the hot water requirements and sizing the storage-type equipment for residential, commercial, industrial, institutional buildings
Steam and condensate piping
• Water hammer
• Heat-up method
• Sizing the traps
• Installation
• Air venting
Fuel gas piping
• Definitions
• Appliances
Pumps
• Types of pumps
• Pump performance
• Characteristic curves
• Fault diagnosis
and
trouble shooting.
• Cavitations and NPSH.
• Water hammer calculations
• Installation and operating problems
Energy conservation in water systems design
• Definitions
• Performance efficiency
• Saving energy
Maintenance plane preparation outline
• Field
check list
• Hydraulic pressure test procedures
• Flushing techniques
Case study
