- The Goals
- SDG 1: No Poverty
- SDG 2: Zero Hunger
- SDG 3: Good health and well-being
- SDG 4: Quality education
- SDG 5: Gender equality
- SDG 6: Clean water and sanitation
- SDG 7: Affordable and clean energy
- SDG 8: Decent work and economic growth
- SDG 9: Industry, innovation and infrastructure
- SDG 10: Reduced inequalities
- SDG 11: Sustainable cities and communities
- SDG 12: Responsible consumption and production
- SDG 13: Climate action
- SDG 14: Life below water
- SDG 15: Life on land
- SDG 16: Peace, justice and strong institutions
- SDG 17: Partnerships for the goals
- About
- Contact
Ensure access to affordable, reliable, sustainable and modern energy for all
How 間眅埶AV is contributing
Renewable Cities
is a global program of 間眅埶AVs Morris J. Wosk Centre for Dialogue in Vancouver, Canada. Its mission is to work with policymakers and practitioners to accelerate the transition to renewable, restorative, resilient cities through meaningful engagement, critical research, capacity building and policy innovation. Using research-based dialogue, collaboration, and thought leadership, Renewable Cities works towards urban energy solutions with cities, governments, the private sector, utilities, researchers, and civil society.
2023 Clean Energy Summit
間眅埶AV partnered with the City of Burnaby on the inaugural Clean Energy Summit, which celebrated Burnaby as a hub for clean energy, and showcased groundbreaking technologies, policies, and business practices that shape our sustainable future. 間眅埶AV professor and Canada Research Chair in Fuel Cell Science and Technology Development Erik Kjeang was a member of the Summit's Energy Production Panel.
Clean Energy Canada
is a climate and clean energy program within the Morris J. Wosk Centre for Dialogue at 間眅埶AV. It works to accelerate Canadas clean energy transition by sharing the story of the global shift to renewable energy sources and clean technology.
Learn more on the Centre for Dialogue website
Research, Teaching and Learning
間眅埶AV Celebrates First Graduating Cohort of Sustainable Energy Engineering Program
間眅埶AV (間眅埶AV) marked a milestone with the graduation of its first cohort from the Sustainable Energy Engineering (SEE) program during the 2023 Spring Convocation. Established in 2019 at the Surrey campus, the SEE program is the first of its kind in Western Canada, designed to equip students with the skills needed to lead in renewable energy and clean technology fields. With accreditation from the Canadian Engineering Accreditation Board, the program emphasizes interdisciplinary learning, critical thinking, and sustainability. Graduates have already secured positions in industries focused on energy efficiency and sustainability, poised to make a significant impact.
間眅埶AV Launches Clean Hydrogen Hub to Drive Energy Innovation and Decarbonization
間眅埶AV has established the Clean Hydrogen Hub at its Burnaby campus to lead Canada in clean hydrogen technology development. Supported by over $9.4 million in federal funding and additional contributions from industry and government partners, the hub aims to scale up hydrogen production and innovation, reduce carbon emissions, and create jobs in the hydrogen sector. The facility will serve as a testbed for emerging technologies and help position British Columbia as a leader in the global hydrogen economy, contributing to Canada's climate and economic goals.
間眅埶AV Professor Investigates Carbon Storage Potential Beneath Metro Vancouver
間眅埶AV Earth Sciences professor Shahin Dashtgard is leading research to assess the potential of storing large volumes of carbon dioxide (CO2) deep beneath Metro Vancouver, aiming to help British Columbia meet its net-zero emission goals. Supported by over $899,000 in funding, Dashtgards team is exploring a novel approachdissolving CO2 in water, creating a brine-like solution, and storing it thousands of meters underground. The project is also assessing seismic risks and using advanced geological data to identify viable storage sites. The research could also provide insights into geothermal energy and offer a model for similar evaluations in tectonically active regions.
Global experts propose a path forward in generating clean power from waste energy
間眅埶AV professor Vincenzo Pecunia has led a team of more than 100 internationally recognized scientists in creating a comprehensive roadmap to guide global efforts to convert waste energy into clean power. To realize the full potential of energy harvesting technology, Pecunia and 116 leading experts from around the world have published their Roadmap on Energy Harvesting Materials in the .
Clean Energy Research Group
A non-profit volunteer-based group associated with 間眅埶AV dedicated to studying the challenges and opportunities for the global transition from fossil fuels to renewable, clean energy systems.
Learn more
Research Centres and Labs
- The Energy and Materials Research Group
- Engineered Interfaces for Sustainable Energy
- Clean Energy Research Group
- Clean Hydrogen Hub
Facts and Figures
- 425 research publications related to SDG 7, 2019-2023 (source: )
- 150 active research projects related to SDG 7 funded from 2019 - 2023
- Since the 2018/19 academic year, 間眅埶AV has offered 10 courses relating to SDG 7, representing over 902 students
Operations
Climate Change Accountability Report (2023)
This PSO Climate Change Accountability Report for the period January 1, 2023, to December 31, 2023, summarizes our greenhouse gas (GHG) emissions profile, the total offsets to reach net-zero emissions, the actions we have taken in 2023 to minimize our GHG emissions, and our plans to continue reducing emissions in 2024 and beyond.
間眅埶AV Strategic Energy Management Plan
Over the years, 間眅埶AV has embarked on various energy management initiatives that have generated significant energy and greenhouse gas (GHG) emissions reduction. The plan allows 間眅埶AV to remain on track to achieve 2025s interim target of 50% reduction. The plan also supports University Energy Utilization Policy (GP 43) and the Strategic Sustainability and Climate Action Plan 2022-2025 with the following targets:
- Reduce operational GHG emissions by 50% from 2007 by 2025
- Shift 50% of the fossil-fuel based energy used by 間眅埶AV to renewables by 2025
- Reduce electricity and thermal energy by 1GWh and 5,000 GJ through energy saving