- International Fees
International fees are typically 3.12 times the domestic tuition. Exact cost will be calculated upon completion of registration.
Course Overview
The course introduces basic knowledge and skills essential in analyzing energy usage in buildings. Each week's lesson includes a 2.0 hours lecture session, and a 1.0 hours lab/workshop session. In the lecture section, students are expected to learn the basic concepts and modelling skills of building energy systems. These systems include: building envelope system, HVAC and plumbing systems, and lighting systems (MEP) as well. IES-VE will be used in this course. Some rudimentary features and overall structure as well as some selected subprograms and their applications will be introduced and discussed. The basic modelling skills and the essential inputs of a variety of building HVAC and plumbing systems will be demonstrated in the lecture section as well through examples. These systems may include: PTAC, PTHP, PSZAC, PSZHP, WSHP systems, electric or hot water baseboard heater with HRV ventilation systems, and gas-fired or electric or heat pump domestic hot water heating systems. In the in-class lab/workshop section, students will apply what they have learned in the lecture session.
Prerequisite(s)
- No prerequisites are required for this course.
Credits
3.0
- Not offered this term
- This course is not offered this term. Please check back next term or subscribe to receive notifications of future course offerings and other opportunities to learn more about this course and related programs.
Learning Outcomes
Upon successful completion of this course, the student will be able to:
- Carry out independently energy analysis of residential or commercial building's MEP systems.
- Conduct size run for building HVAC and Plumbing systems using building simulation tool.
- Assess the interaction of the building envelope with HVAC systems including examining the impacts of different envelope and HVAC systems on building thermal behaviors and energy performance.
- Make engineering judgement autonomously including identifying the most applicable energy saving solution(s) for a given residential or commercial building by investigating the effectiveness of potential energy-conservation measures on energy saving and GHG emission reductions.
- Interpret simulated results to, and communicate the key findings/conclusions with personnel of other disciplines in building design.
- Present simulation results and findings in a clear and understandable manner, in both a written form and public presentation.
Effective as of Fall 2022
Related Programs
Building Energy Modelling Level 1 (BSCI 5110) is offered as a part of the following programs:
- Indicates programs accepting international students.
- Indicates programs with a co-op option.
School of Construction and the Environment
- Building Energy Modelling and Performance Analysis
Advanced Certificate Part-time
Programs and courses are subject to change without notice.