Faced with the global and local challenges of climate change, there is an urgent need for more efficient and cleaner energy consumption. At Concordia, the focus is on ensuring that all buildings are as energy efficient as possible while providing adequate services to the community.
At Concordia we manage and measure our energy use and greenhouse gas emissions, and strive to reduce both as much as possible while also maintaining user comfort and key functions of the university.
Energy data and initiatives
Learn how we have been managing our energy and carbon footprint at Concordia.
As Quebec’s most energy efficient major university for over twenty consecutive years, Concordia University strives for energy efficiency at every possible opportunity. From designing and building green certified, next-generation learning facilities to renovating, operating and maintaining buildings more than a century old, every aspect of a building’s lifecycle is considered in managing and reducing energy use.
As an institution, managing and reducing our energy consumption has a number of direct and indirect benefits:
- Lower overall cost of energy
- Reduction of greenhouse gas emissions
- Increased occupant comfort
- Contributing to local power grid stability
Concordia’s success and leadership in energy efficiency is supported in many ways:
- Stringent equipment and construction standards for renovations, new constructions and infrastructure work.
- Adhesion to industry standards in energy efficiency, indoor air quality, thermal comfort and lighting
- Incorporation of green building certifications into new construction and existing buildings (LEED and BOMA)
- Integrated design approaches for new construction and renovations
- Perpetual monitoring and assessment of sources of potential energy savings opportunities
- Proactive approach to identifying, planning and executing energy efficiency projects and related programs
- Working in cooperation with students and researchers to test and implement state of the art equipment, control strategies and occupant engagement models in our buildings
As an institution of higher education, Concordia University recognises the impact that human activity has on our climate. As such, Concordia feels it must reduce or eliminate its contributions to climate change as a duty to societies and to biodiverse life on planet eath.
Concordia is responsible for the emission of 18,768 metric tons of greenhouse gases per year. These emissions principally originate from building energy use, commuting to and from campus, and the decomposition of our waste in landfills.
The figure below has been updated from our 2014-2015 GHG Emissions Inventory*.
*Note: Updated on 09/27/20. The 2014-2015 figures previously reported contained unit errors that led to the overestimation of our GHG emissions from landfill waste. The previously reported GHG total for 2014-2015 was over 23,000 metric tons.
In 2019, Concordia began to develop its climate change strategies and is actively pursuing the following activities:
- Conversion of existing natural gas heating to electricity
- Reducing overall energy use through diligent energy management
- Increasing the use of on-site renewable energy and energy storage
- Exploring meaningful carbon offset strategies to cover the remaining, unavoidable emissions
- Divesting from the fossil fuel industry
For more on the development and adoption of policies and decisions related to Concordia’s Climate Change Plan, read our Climate Action Plan.
In addition to a commitment to continuous improvement, Concordia has entered the following SGW campus buildings in the Building Owners and Managers Association (BOMA) Energy Challenge, an international competition in building energy management:
- B (B Annex)
- EV (Engineering, Computer Science and Visual Arts Integrated Complex)
- GM (Guy-de Maisonneuve)
- GN (Grey Nun's)
- H (Hall)
- K (K Annex)
- LB (J.W. McConnell library)
- M (M Annex)
- MB (John Molson)
- VA (Visual Arts)
- Z (Z Annex)
At Loyola, Concordia has entered the Jesuit Residence (JR) building into the competition.
Energy-related research and news
Concordia engineering students turn thwarted vacation plans into a profitable startupAugust 4, 2021
Artificial intelligence can help get the most out of urban wind energy, say Concordia researchersJune 10, 2021
Charging thousands of electric vehicles simultaneously will be a big challenge for cities, writes Concordia researcherApril 20, 2021
Thermal imaging of housing stock can tell us where energy costs will hurt, Concordia researchers showOctober 1, 2019
Concordia receives $9.1M for 49 research projects in natural sciences and engineeringMay 21, 2019
Concordia and McGill students head to China to build a zero-energy home in 22 daysJune 20, 2018
- Sustainability initiatives
- Green Buildings
- Zero Waste
- Sustainable transportation
- Student initiatives
- Green Buildings