HVAC System Design
- ✓Selecting the appropriate HVAC system according to thermal loads and design requirements.
- ✓Performing accurate thermal load calculations and designing cooling and air conditioning systems in compliance with engineering standards and project requirements.
- ✓Designing air distribution networks and selecting suitable fans to ensure the required efficiency and ventilation quality according to engineering standards.
Course Content
Unit 01: Air Properties and Psychrometric Chart0h
- Air Properties (01)
- Air Properties (02)
- The Psychrometric Chart
- Determining Air Properties on The Psychrometric Chart
- Examples on the Psychrometric Chart
- Processes on the Psychrometric Chart (01)
- Processes on the Psychrometric Chart (02)
- Examples of Processes on the Psychrometric Chart (01)
- Examples of Processes on the Psychrometric Chart (02)
Unit 02: Direct Expansion Systems0h
- Refrigeration Cycle Components
- Refrigeration Cycle on Diagram
- Air Conditioning Systems
- DX Air Conditioning Systems
- Variable Refrigerant Flow Systems (01)
- Variable Refrigerant Flow Systems (02)
- Package Units and Air Handling Services
- Temperature Control within Indoor Spaces
Unit 03: Chilled Water Systems0h
- Air-Cooled Chiller Components
- Types of Evaporators and Condensers for Air-Cooled Chillers
- Water-Cooled Chiller Components
- Types of Evaporators and Condensers for Water-Cooled Chillers
- Types of Pumps
- Components of the Chilled Water Network
- Return Air Duct Connection to AC Unit
- Total Load and Mixing Units with Examples
- Heat Recovery Units
Unit 04: External and Internal Cooling Load Sources0h
- Heat Transfer Method
- Internal and External Load Sources
- Required Data for Project Cooling Load Calculation
- Number of Occupants and Fresh Air Requirements
- Lighting and Equipment Loads
- Introduction to the HAP Program
- Definition of Weather
- Definition of Wall
- Definition of Ceiling
- Introduction to Windows and Doors
- Shading Geometry Name
- Scheduling in HAP
Unit 05: HAP Program (01)0h
- Defining General Data
- Project Library
- Spaces Properties (01)
- Spaces Properties (02)
- Entering Ground Floor Space Data (01)
- Entering Ground Floor Space Data (02)
- Entering First Floor Space Data (01)
- Entering First Floor Space Data (02)
- Entering Second Floor Space Data (01)
- Entering Second Floor Space Data (02)
- Entering Basement Space Data (01)
- Entering Basement Space Data (02)
- Editing Data in HAP
Unit 06: HAP Program (02)0h
- Defining System Components ( Split Units )
- Defining System Components (Fan Coil Units)
- Design Cooling Temperature
- Defining System Components (Package Units)
- Defining System Components (Air Handling Units)
- The Psychrometric Chart Using HAP
- precool Coil Sizing Data
- Humidification Explanation
- Heat Recovery in HAP Software
- Fresh Air Cooling Unit Explanation
- Understanding Control Systems for Fan Coil Units
- Defining Fresh Air Systems
- Defining System Calculations
Unit 07: Selection of Air Conditioning Units0h
- Entering System Components
- Selecting Air Conditioning Units for Basement (01)
- Selecting Air Conditioning Units for Basement (02)
- Selecting Air Conditioning Units for Ground Floor
- Selecting Air Conditioning Units for First Floor
- Selecting Air Conditioning Units for Second and Third Floors
- Placing Room Loads on AutoCAD
- Selecting Air Handling Units
- Exhaust Air Rates (01)
- Exhaust Air Rates (02)
- Calculating Required Airflow Rates for Bathrooms
- Calculating Required Airflow Rates for Transformer Rooms
Unit 08: Air Duct Design (01)0h
- Classification of Air Ducts
- Explanation of Air Duct Design (01)
- Air Duct Design Example (01)
- Explanation of Air Duct Design (02)
- Air Duct Design Example (02)
- Explanation of How to Calculate Static Pressure for Fan Coil
- Types of Air Outlets
- How to Select Air Terminals
- Example of How to Select Air Terminals
- Example of Air Duct Design
- Drawing Air Ducts
- Static Pressure Calculation for Fan Coil (01)
- Static Pressure Calculation for Fan Coil (02)
Unit 09: Air Duct Design (02)0h
- Air Duct Network Design for Basement (01)
- Air Duct Network Design for Basement (02)
- Air Duct Network Design for Ground Floor (01)
- Air Duct Network Design for Ground Floor (02)
- Air Duct Network Design for Ground Floor (03)
- Air Duct Network Design for First Floor
- Air Duct Network Design for Production Hall (01)
- Air Duct Network Design for Production Hall (02)
- Air Duct Network Design for Production Hall (03)
- Air Duct Network Design for Production Hall (04)
- Duct Weight
Unit 10: Design of Fresh Air and Exhaust Air Ducts0h
- Exhaust Air Duct Design for Basement (01)
- Exhaust Air Duct Design for Basement (02)
- Ground Floor Exhaust Air Duct Design
- Fresh Air Quantity Determination
- Fresh Air Duct Design (01)
- Fresh Air Duct Design (02)
- Fresh Air Duct Design (03)
Unit 11: Chilled Water Piping Network Design0h
- Introduction to Chilled Water Networks
- How to Draw Chilled Water Paths
- Valves Used in Chilled Water Network (01)
- Valves Used in Chilled Water Network (02)
- Explanation of Chilled Water Network Components
- Chilled Water Piping Design and Sizing
- Drawing Piping Network for Reinforcement
- Drawing Piping Network for Basement
- Drawing Piping Network for Ground and First Floor
- Drawing Piping Network for Second and Third Floors
- Designing Piping Network for Basement
- Designing Piping Network for Ground and First Floor
- Designing Piping Network for Second and Third Floors
Unit 12: Chilled Water Network Design0h
- Definition of the valves on each device in the chilled water network
- Defining How to Connect Chilled Water Networks
- Explanation of How to Calculate Pump Pressure (01)
- Explanation of How to Calculate Pump Pressure (02)
- Drawing Primary and Secondary Chilled Water Networks
- Pump Classification
- Pump Pressure Calculation (01)
- Pump Pressure Calculation (02)
- Main Pump Pressure Calculation (01)
- Secondary Pump Pressure Calculation (02)
- Main Pump Pressure Calculation
- Selecting the Chiller Unit
- Designing the Expansion Tank
Instructors
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.
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
Do I need prior experience in HVAC?
Advanced experience is not required; however, basic knowledge of heating, ventilation, and air conditioning principles, as well as fluid mechanics concepts, is recommended to gain maximum benefit from the course.
Is the course theoretical or practical?
The course combines theoretical instruction with practical applications, focusing on network design and thermal load calculations using HAP software, along with real-world case studies.
Will I receive a certificate after completing the course?
Yes, participants will receive a certified certificate upon successful completion of the course.