Ontario can phase out nuclear and avoid increased carbon emissions via The Conversation

s wind and solar energy have become cheaper, they’ve become a more prominent and important way to generate clean electricity in most parts of the world.

The Ontario government, on the other hand, is cancelling renewable energy projects at a reported cost of at least $230 million while reinforcing the province’s reliance on nuclear power via expensive reactor refurbishment plans.

As researchers who have examined the economics of electricity generation in Ontario and elsewhere, we argue that this decision is wasteful and ill-advised, and the unnecessary cost differential will rise further in the future.

One concern about renewables has been the intermittency of these energy sources. But studies have shown it’s feasible to have an all-renewable electric grid.


Read more: How to have an all-renewable electric grid


These feasibility studies, however, are always location specific. In that spirit, we have carried out detailed modelling and found that it’s possible to meet Ontario’s electricity demands throughout the year with just a combination of renewables, including hydropower, and storing electricity in batteries.

We also found that dealing with the intermittency of wind and solar energy by adding batteries would be more economical than refurbishing nuclear plants in the foreseeable future, well before the current refurbishment projects are completed.

That’s because of the expected decline in the cost of batteries used to store the electricity during the hours when the wind is blowing or the sun is shining in order to supply electricity during the periods when they aren’t. The cost of different kinds of battery technologies, such as lithium-ion or flow batteries, have come down rapidly in recent years.

Modelling

To explore the relative economics of nuclear and renewable energy, we constructed a very simple model that optimized the total cost of meeting the electricity demand in Ontario for each hour of the year.

We used what’s known in physics as a toy model. It’s not intended to be sufficiently accurate to reproduce reality in detail, but to capture the basic and important elements of the system being studied. Our model is not meant to actually calculate the cost of supplying electricity, but only to compare the relative costs of different options, with the condition that no fossil fuels be used.

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Essential results

In all scenarios, the bulk of the demand was met by solar and wind power, with a lower fraction met by hydropower. Even in the scenarios with no batteries, less than 20 per cent of the electricity demand was met by nuclear power.

Second, it would be cheaper to reduce this even further. Because of safety and other operational reasons, it’s a bad idea to change the outputs of nuclear plants quickly. Traditionally, reactor outputs have been held steady.

But if, for argument’s sake, we allow the outputs of nuclear reactors to go up and down as fast as needed by the grid, then our model predicts that nuclear power plants would be used even less. If nuclear power plants outputs are held steady, then they would supply more electricity, but the cost to consumers would also be higher.

Finally, and perhaps most consequentially, if the costs of batteries decline from current levels to those projected for 2025, then the cost of supplying electricity using a combination of renewables and battery storage would become cheaper than doing the same using nuclear power.

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