- International Fees
International fees are typically 3.12 times the domestic tuition. Exact cost will be calculated upon completion of registration.
Course Overview
This course provides an overview of best practices for energy efficient control strategies in building systems. The course will include controls strategies for HVAC, Pumping, Low Voltage Lighting, and security systems. Control strategies will include variable flow air and water strategies, heating and cooling lockouts, real time demand and occupancy based control, predictive algorithms, load based control, intelligent response and dynamic reset. Students will explore the energy impacts of these strategies in order to prioritize alternative controls approaches. The course will also provide a general introduction to and overview of all topics in the BCIT Controls and Energy Management Program.
Prerequisite(s)
- 50% in CESA 5100† († may be taken concurrently)
Credits
4.0
- 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:
- Identify the basic features of controls technologies, their relationship with building systems and the controls impact on energy use.
- Outline a variety of control strategies used to obtain high levels of energy efficiency in buildings.
- Define the function of a wide range of energy control strategies, how they work, and identifying the key components and control variables for each approach.
- Evaluate the value of pneumatic to digital controls upgrades for efficiency and comfort benefits.
- Quantify the impacts of different control strategies both in energy and comfort.
- Assess the pros and cons of control strategies as applied to different kinds of building systems.
- Evaluate aspects of control strategies for their ability to improve the performance of condensing boilers, free cooling infrastructure, chillers and heat recovery systems.
- Calculate the anticipated monthly energy usage for a facility with a defined set of HVAC systems both with poor and advanced control strategies.
- Identify types of user feedback and how it can be used to refine control variables for persistent long term energy performance.
Effective as of Fall 2016
Related Programs
Energy Systems & Controls (CESA 5320) 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 Controls & Energy Management
Advanced Certificate Part-time
Programs and courses are subject to change without notice.