- Mechanical Engineering Training
- Basic Concepts, Energy Demand, and Economics of HVAC Systems (1.8 CEUs)
- Course Outline
Mastering the fundamentals and basic concepts of HVAC is necessary for individuals involved in the design, operation, and maintenance of HVAC systems. This course provides an understanding of the basic concepts of HVAC systems covering fundamentals of refrigeration, heat transfer, and psychometrics, HVAC equipment and system selection, comfort, cooling and heating load calculations, design of air and water distribution systems, controls, energy costs and economics. All topics are introduced at a level suitable for individuals who have little background in the subject. The course comprises lectures and hands-on workshops. Through a set of case studies, in each workshop you learn the use of useful computer programs that incorporate design, sizing, and equipment selection procedures.
To provide good understanding of the fundamentals and basic concepts of HVAC systems.
To provide information on design, energy demand and economic evaluation of HVAC systems.
To proved hands-on experience in the use of a set of useful design and sizing computational tools.
Who should attend?
New HVAC engineers or engineers moving into the HVAC field who did not complete an HVAC course during their undergraduate program.
Non-Engineering professionals with strong building-related experience.
Maintenance and operation personnel.
Technical personnel who need to upgrade/refresh their current knowledge of HVAC systems.
Fundamentals of Refrigeration
The refrigeration cycle
The ideal and real vapour compression cycles.
Refrigerants types, properties, and the refrigerant chart.
Fundamentals of Heat Transfer
Heat transfer modes (conduction, convection, and radiation)
Combined heat transfer
Basics of heat exchangers
Fundamentals of Psyhcrometry
Properties of moist air
The Psychrometric chart
Representation and calculations of HVAC processes.
By-pass factor and apparatus dew point.
Workshop I The Psychrometric processes computer program:
Case study 1 Sizing a heat recovery units
Case study 2 Sizing a heating and humidification unit.
Case study 3 Sizing a cooling coil unit.
HVAC Equipment and System Selection
Unitary package equipment.
Unitary split system equipment.
Ground-source and water-loop heat pumps.
Chilled water systems.
Selection procedure for chilled water coils, air conditioners, and heat pumps.
Selection procedures for unitary heat pumps and furnaces.
Case study 1 - Selection of Air-Conditioners and Air-to-Air Heat Pumps.
Case study 2 Selection of Air-Conditioners and Air-to-Air Heat Pumps
Comfort and Climate Data
Indoor air quality
calculation of required ventilation rates
Dedicated ventilation air system
Multiple-zone re-circulating system
Heat Flow in Buildings
Thermal Properties of Building materials
Building heat transfer characteristics
Heat through duct work
Moisture control and migration
Cooling and Heating Load Calculation
Load calculation methods.
Load calculation pshychrometrics
Internal heat gains
Heat loss calculations
Cooling load calculation using a modified CLTD/CLF method
Workshop III -Load calculation of a multi-zone system using the Heating &
Cooling Load Calculation Program - CLTD/CLF/SCL Method.
Design of Air Distribution Systems
Space air diffusion
Design considerations and air duct systems
Duct layout and sizing
Fans, fan laws, and flow control methods
System curve and fan selection
Design of fan-duct interface
Workshop IV - Design of a duct system using the Equal Friction Computer
Design of Water Distribution Systems
Piping loop systems
Head loss characteristics
Piping layout and sizing
System head and pump selection
Workshop V -Design of a piping loop using the piping design computer program.
HVAC control component and circuits
Unitary controls and circuits
Central HVAC system controls
Energy, Costs, and Economics
Low- and high- efficiency HVAC system demand calculations.
Energy consumption and cost calculations.
Maintenance and replacement costs
System Installation Costs.
Case study calculation of duct cost using duct cost program.
Engineering economics and HVAC
Discounted economic analysis.
Achieve the following learning outcomes:
Understand key concepts of the design and operation of HVAC systems.
Gain hands-on experience of many systematic procedures for equipment selection, sizing, and design of air and water systems.
Become familiar with energy demand, costs, and economic analysis of HVAC systems.
8:00 Registration and coffee (first day only)
8:30 Session begins
Dr. M. S. Hamed, P.Eng., is an Associate Professor at the Department of Mechanical
Engineering and the founding director of the Thermal Processing Laboratory (TPL) at McMaster University.
Dr. Hamed has 24 years of industrial experience in the field of thermal engineering, five years of which as Director of Research and Product Development in Canada. Dr. Hamed has presented numerous seminars in the field of HVAC and Technology-based Energy Management. He has served as a consultant in many projects in Canada and abroad.
His industrial experience includes design, sizing, process development, troubleshooting, and maintenance of domestic and industrial HVAC systems, air washers, cooling towers, heat exchangers, water, oil, stream and gas piping systems, various types of metal heat treating furnaces, fluidized beds, liquid and gas quench systems, solid-gas separation systems, and furnace atmosphere generators.
He is a registered Professional Engineer in the Province of Ontario and a member of various professional associations such as ASHRAE, ASM International, TMS, CSME, CFD Society of Canada, ASME, and a senior member of SME
- Prerequisites & Certificates
1.8 CEUs / 18 PDHs
- Cancellation Policy
If you wish to withdraw from a course, you must advise us, in writing, including the official receipt. Our policies regarding refund are:
More than fifteen business days in advance: a full refund minus $50.00 administration charge.
Fifteen or less business days in advance: a transfer to another course or a credit, valid for one year, to another GIC course can be considered. Credits are transferable within your organization.
If the course has been running for more than 2 weeks, or after the course has started, an 80% credit towards another GIC course may be considered, if notice is received before the start date of the second session. After this time, no refunds or credits will be issued. If a speaker is not available due to unforeseen circumstances, another speaker of equal ability will be substituted.
GIC reserves the right to cancel or change the date or location of its events. GIC's responsibility will, under no circumstances, exceed the amount of the fee collected. GIC is not responsible for the purchase of non-refundable travel arrangements or accommodations or the cancellation/change fees associated with cancelling them. Please call to confirm that the course is running before confirming travel arrangements and accommodations.
Refund Policy: Allow up to 30 days for refunds to be processed.
- Map & Reviews
Global Innovative Campus
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