The MMR is a new class of nuclear reactor, much smaller in size and power than traditional nuclear reactors, with enhanced safety features. Factory constructed with a far smaller footprint and expected economies from fleet operation, the MMR is suitable for powering remote communities and providing process heat to industry, and is expected to be operational in Canada later this decade.
Seattle-based USNC has developed the MMR technology for worldwide deployment. GFP is the partnership between USNC and Ontario Power Generation (OPG) that is deploying USNC’s MMR technology in Canada. Both USNC and OPG are contributors to Canada’s SMR Action Plan.
Dave Tucker, McMaster’s assistant vice-president, research (nuclear), said the partnership builds on McMaster’s rich nuclear expertise and follows on the university’s contributions to Canada’s SMR Action Plan. “McMaster is a global leader in nuclear R&D and a recognized centre of excellence for training,” he said, noting the partners are frontrunners in this field.
“Combining our capabilities with those of USNC and GFP will allow us to conduct life-cycle studies on the optimal utilization of SMRs and train the next generation of experts that will build, operate, maintain, monitor and regulate these facilities,” Tucker said.
GFP is developing Canada’s first commercial demonstration SMR at the Canadian Nuclear Laboratory’s (CNL) Chalk River site, where much of the research and training will take place, according to Dominique Minière, GFP’s president and CEO.
“It’s the most advanced SMR project in the country and, arguably, the Western world,” said Minière, adding that GFP’s MMR project at Chalk River is expected to be operational in 2027.
This sentiment echoed by USNC’s CEO Francesco Venneri, who said the GFP MMR project is a market-ready design, specifically designed for Canadian climates, and similar in size and power to McMaster’s 5-MW reactor. “Partnering with McMaster at this stage will be instrumental for training the next generation of leaders as we collectively investigate enhanced safety measures, cost structures, power utilization, and waste management options,” he said.
Tucker said the partnership is an important step in the launch of the university’s SMR feasibility study – an estimated 18-month initiative in consultation with community, business and government stakeholders, including indigenous communities and municipal councils.
Based on those findings and McMaster’s decision to pursue SMR deployment, the process of seeking the necessary licences from the Canadian Nuclear Safety Commission will begin.