Green Technology

Reducing our environmental impact, decreasing costs and increasing safety on our campuses—innovative green technologies are strategically implemented across the university

These technologies help the university work towards its greenhouse gas reduction target of
17%
below 2005 levels by 2020

The Energy Management and Sustainable Operations (EMSO) team collaborates with researchers and faculty to continuously find new ways to implement these innovative technologies on our campuses

Our Interactive Project Map

Stroll through our campuses using our Interactive Project Map! Learn about renewable and alternative energy installations, zero waste, water efficiency upgrades and more.

Open Map

Featured projects

Solar photovoltaic
Agriculture and Forestry Atrium | 2017

Solar photovoltaic panels gather sunlight and convert it into electricity. In the Agriculture and Forestry Building atrium, energy efficient glass panes were embedded with translucent photovoltaic (PV) panels which generate power for the building.

  Open PDF

The exceptional shape of the building required planning to map out the panels, especially in regards to how snow would land on the exterior.

Parkade LED lighting retrofit
Southfield Car Park | 2017

With new paint and energy efficient LEDs, the lighting in Southfield Car Park was drastically improved while also reducing energy consumption. The university received a 2017 Lighting Energy Efficiency in Parking award for Exemplary Higher Education Parking Facility for this work.

  Open PDF

Brighter lights, fresh paint and a cleaner space all contribute to the users feeling safer.

Solar photovoltaic with battery storage
Augustana Miquelon Lake Research Station | 2017

The Augustana Miquelon Lake Research Station contains a residential space and a laboratory for research and educational purposes. The station features a 12 kWh battery bank that connects to solar photovoltaic (PV) panels on the station's south-facing roof as well as the electrical grid.

  Open PDF   View Current Levels

Solar photovoltaic can be easy! The installation was fast and the project ran smoothly.

LED lighting retrofit
Human Ecology Building | 2017

Prior to the retrofit, lighting in the Human Ecology Building was responsible for 20 per cent of the electricity consumed and often did not meet users' needs in terms of lighting consistency. The retrofit replaced all incandescent and fluorescent bulbs with LEDs.

  Open PDF

The project took four weeks but would have only taken one if ballasts hadn't needed replacing.

Aircuity®
Katz Group Centre, Li Ka Shing Centre, Centennial Centre for Interdisciplinary Science and Natural Resources Engineering Facility | 2016

An Aircuity® system continuously monitors air quality and occupancy in laboratories and informs the building ventilation system of the appropriate levels of fresh air to provide. Upgrading helps to save energy, optimize facilities, improve safety and reduce our carbon footprint.

  Open PDF

In 2016, Aircuity® was piloted in four buildings. The estimated savings was considerable.

  • Katz Group Centre: 6,472 tonnes of CO2 emissions
  • Li Ka Shing Centre: 3,582 tonnes of CO2 emissions
  • Centennial Centre for Interdisciplinary Science: 933 tonnes of CO2 emissions
  • Natural Resources Engineering Facility: 2,353 tonnes of CO2 emissions

Since 2016, the number of Aircuity® installations has increased across North Campus.

Water efficient fixture upgrades
General Services Building | 2015-2016

Water efficiency reduces water use without compromising performance. Upgrading the valves and faucets in the General Services Building saved an estimated $4,040 per year in utility costs. These efficient fixtures were installed before water efficiency requirements became part of the plumbing code used in Alberta.

  Open PDF

Schedule installations where maintenance is already taking place to reduce labour time.

People counters
North Campus | 2015

Thermal sensors monitor movement to determine how frequently a space is used. Knowing which areas are frequently used and which are not allows the university to reduce energy, allocate staff resources to higher use areas, minimize unnecessary costs and identify space opportunities.

  Open PDF

Sensors in confined spaces or at entrances require calibration to work correctly in those conditions.

Turbine generator
Li Ka Shing Centre | 2014

A turbine generator reduces the temperature and pressure of steam delivered to the Li Ka Shing Centre by the University of Alberta’s District Energy System (DES). This decreases mechanical equipment maintenance costs, while also generating electricity.

  Open PDF

Optimal performance depends on selecting equipment that is appropriately sized for the job.

solar panel icon

Solar photovoltaic
Agriculture and Forestry Atrium | 2017

Solar photovoltaic panels gather sunlight and convert it into electricity. In the Agriculture and Forestry Building atrium, energy efficient glass panes were embedded with translucent photovoltaic (PV) panels which generate power for the building.

Open PDF

The exceptional shape of the building required planning to map out the panels, especially in regards to how snow would land on the exterior.

led icon

Parkade LED lighting retrofit Southfield Car Park | 2017

With new paint and energy efficient LEDs, the lighting in Southfield Car Park was drastically improved while also reducing energy consumption. The university received a 2017 Lighting Energy Efficiency in Parking award for Exemplary Higher Education Parking Facility for this work.

Open PDF

Brighter lights, fresh paint and a cleaner space all contribute to the users feeling safer.

led icon

Solar photovoltaic with battery storage
Augustana Miquelon Lake Research Station | 2017

The Augustana Miquelon Lake Research Station contains a residential space and a laboratory for research and educational purposes. The station features a 12 kWh battery bank that connects to solar photovoltaic (PV) panels on the station's south-facing roof as well as the electrical grid.

Open PDF

View Current Levels

Solar photovoltaic can be easy! The installation was fast and the project ran smoothly.

led icon

LED lighting retrofit
Human Ecology Building | 2017

Prior to the retrofit, lighting in the Human Ecology Building was responsible for 20 per cent of the electricity consumed and often did not meet users' needs in terms of lighting consistency. The retrofit replaced all incandescent and fluorescent bulbs with LEDs.

Open PDF

The project took four weeks but would have only taken one if ballasts hadn't needed replacing.

Aircuity icon

Aircuity®
Katz Group Centre, Li Ka Shing Centre, Centennial Centre for Interdisciplinary Science and Natural Resources Engineering Facility | 2016

An Aircuity® system continuously monitors air quality and occupancy in laboratories and informs the building ventilation system of the appropriate levels of fresh air to provide. Upgrading helps to save energy, optimize facilities, improve safety and reduce our carbon footprint.

Open PDF

In 2016, Aircuity® was piloted in four buildings. The estimated savings was considerable.

  • Katz Group Centre: 6,472 tonnes of CO2 emissions
  • Li Ka Shing Centre: 3,582 tonnes of CO2 emissions
  • Centennial Centre for Interdisciplinary Science: 933 tonnes of CO2 emissions
  • Natural Resources Engineering Facility: 2,353 tonnes of CO2 emissions

Since 2016, the number of Aircuity® installations has increased across North Campus.

reuse-water-icon.png

Water efficient fixture upgrades
General Services Building | 2015-2016

Water efficiency reduces water use without compromising performance. Upgrading the valves and faucets in the General Services Building saved an estimated $4,040 per year in utility costs. These efficient fixtures were installed before water efficiency requirements became part of the plumbing code used in Alberta.

Open PDF

Schedule installations where maintenance is already taking place to reduce labour time.

reuse-water-icon.png

People counters
North Campus | 2015

Thermal sensors monitor movement to determine how frequently a space is used. Knowing which areas are frequently used and which are not allows the university to reduce energy, allocate staff resources to higher use areas, minimize unnecessary costs and identify space opportunities.

Open PDF

Sensors in confined spaces or at entrances require calibration to work correctly in those conditions.

Turbine generator icon

Turbine generator
Li Ka Shing Centre | 2014

A turbine generator reduces the temperature and pressure of steam delivered to the Li Ka Shing Centre by the University of Alberta’s District Energy System (DES). This decreases mechanical equipment maintenance costs, while also generating electricity.

Open PDF

Optimal performance depends on selecting equipment that is appropriately sized for the job.

Contact us!

Have a question about one of our innovative green technology projects or do you have a project of your own you’d like to share? We’d love to hear from you. Contact us at emso@ualberta.ca.