The short-term costs of nuclear SMRs are preferable to paying hundreds of millions to import foreign energy in the long-term.
British Columbia takes great pride in its tremendous hydroelectric resources, which result from the province’s many long, powerful rivers. For decades, BC has found it easy to rely on hydroelectricity as a clean, renewable source of power for homes, industry, and businesses.
However, the ongoing viability of hydropower in BC should be called into question due to worsening summer droughts and declining snowfalls, which have negatively impacted the annual supply of hydropower. BC has not seriously entertained the possibility of alternatives, even though other provinces have begun to embrace one particular source of energy that has been illegal here for over a decade: nuclear power.
By refusing to strike down the law passed in 2010 that prohibits the mining of uranium or the building of nuclear reactors, BC has made itself an outlier among its peers. Since last year, Ontario has announced plans to expand its existing nuclear capacity, which already provides the majority of the province’s electricity.
Alberta, Saskatchewan, and Nova Scotia have also begun to explore the possibility of expanding nuclear power to help power their growing provinces. BC has prohibited nuclear energy since passing the Clean Energy Act of 2010, which bans the building of reactors or mining uranium.
This prohibition is a barrier to diversifying BC’s energy supply, which has become more reliant on foreign energy. Due to energy shortages, BC Hydro had to import 15 to 20 percent of the energy required to meet the province’s needs.
Do not expect the situation to improve. Snowpacks are shrinking in the winter months, and summer droughts have become more frequent, which means BC’s dams will see a reduction in their power capacity. Power shortages may be on the horizon, leading to vastly more expensive purchases of foreign energy to meet BC’s growing electricity demand, driven by the construction of new homes and projects like LNG facilities on the coast.
Energy diversification is the solution, and nuclear power should be included, especially Small Modular Reactors (SMRs).
Low-carbon and reliable, SMRs can provide steady nuclear power in any season. They are flexible and much more cost-effective than traditional, large-scale nuclear reactors.
For a vast province like BC, filled with small communities separated by mountainous terrain, SMRs can be deployed with great ease to ensure energy stability in remote and Indigenous communities that still struggle with energy access. The Haida Nation, for example, is still reliant on diesel to supply its energy, which goes against the BC government’s clean energy goals and relies on fuel being shipped to the Haida Gwaii archipelago.
While SMRs are cheaper than massive nuclear reactors, they are still expensive and require strict safety regulations due to the ever-present risks associated with nuclear energy. However, is the cost of building nuclear facilities in the short term more expensive than importing energy for years to come?
In 2023, BC Hydro spent upwards of $300 million USD on imported energy, while the cost of the smallest SMR is $50 million, with the more expensive units costing up to $3 billion. Building SMRs now is the right decision from a cost-benefit perspective and in terms of BC’s clean energy goals because SMRs guarantee low-emitting energy, unlike imported energy.
The Clean Energy Act stands in the way of nuclear power’s emergence in BC. Amending it will be necessary for that to change.
BC is not going to need any less energy going forward.
It is high time to get over old fears and stereotypes of nuclear energy. Hydroelectricity need not be displaced as the cornerstone of BC’s energy supply, but it alone cannot face the challenges of the future.