In the 1850s, North Americans exploited the energy content of moving water through the use of small-capacity waterwheels and turbines. The energy produced drove machinery, including that used in gristmills and sawmills. By the 1860s many hundreds of turbines, with up to 1,000 horsepower (hp) capacity, were manufactured annually in the US and by the early 1870s the production of at least one Canadian factory was averaging about 20 turbines per year. Hydroelectricity was introduced in the 1880s, which was around the time Thomas Edison began manufacturing direct-current electric generators, allowing multiple buildings in a district to be illuminated.
The advent of electric generators spawned an increasing demand for electricity, and the need for sources of electric power – such as hydroelectricity – followed. Where waterpower was close at hand, turbines were installed for the express purpose of driving electric generators for lighting, which was initially provided during evening hours only. By the late 1880s the generation of electricity by waterpower was well established. The early use of hydroelectric generation was limited by the capacity of the generating station, which was governed by the speed and volume of its water source, or by demand for electrical power near the station. Transmitting direct-current electricity beyond a few kilometres was difficult, since the amount of electricity decreased along the way. While copper was known to transmit energy over long distances better than other types of metal conductors, the cost of copper was prohibitively expensive.
High-voltage, alternating current transmission – a faster method than direct current transmission, and made possible by the development of commercially viable transformers in the 1890s – permitted transmission of electric power over significant distances and made possible the development of more remote hydroelectric sites. For example, in 1896 hydroelectric power was transmitted approximately 32 km from Niagara Falls to Buffalo, NY, on an 11,000-volt line (then considered a phenomenally high level). The possibility of long-distance transmission increased the capacity of hydroelectric-generating equipment: by the early 1900s, 5,000 hp turbine-generator units were being produced. By comparison, hydroelectric turbine-generator units of over 600,000-hp capacity are now in service.
History: 1900-1945
Beginning in the early 1900s, there was rapid growth in the development of hydroelectric-power sites and progressive increases in transmission-voltage levels. More remote sites were exploited and transmission lines were extended to supply the gradual but strong growth in demand for electric power. In 1903 electric power was transmitted to Montréal from a hydro station at Shawinigan, QC, via a 135 km long, 50,000-volt transmission line; by 1910 Ontario Hydrowas transmitting hydroelectric power from Niagara Falls on 110,000-volt line.
By 1900 a total of 133,000 kilowatts (kW) of hydroelectric-generating capacity had been installed in Canada. Most of this capacity was in Québec and Ontario, where attractive hydroelectric-power sites were found near urban centres, though there were some smaller developments in the Maritimes, Alberta, and BC. In the next 10 years, major hydro-generating stations were established in all provinces except for PEI and Saskatchewan. In 1906, the Yukon Gold Company developed a hydro plant on the territory's Little 12 Mile River. By the early 1950s, hydro facilities were serving both northern territories. Hydroelectric generation was not developed in Saskatchewan until the early 1960s, when the South Saskatchewan River Development provided control and regulation of the province's major river system.
Growth of hydroelectric generation in Canada continued at a modest rate until the mid-1920s, followed by 10 years of more intensive development, and then at a much slower rate through the Second World War.
History: 1945-Present
After 1945, there was a sharp increase in hydro- and thermal-power installations to meet the progressive growth in demand. This growth, which in some provinces exceeded 10 per cent annually, did not slacken until the mid-1970s, when the impact of the 1973 international energy crisis on economic activity led to a decline in the annual growth rate of electric-power consumption.
In the years 1920 to 1950, hydroelectric stations accounted for over 90 per cent of Canada's total generating capacity. Hydro's share of this capacity declined after 1950, dipping to under 60 per cent in 1976. The decline occurred because fossil-fuel-fired thermal-generating stations then offered a cost-competitive alternative, and because few good hydro sites remained near major population centres, increasing the cost of transmission. However, the cost of competing sources of electricity, principally nuclear power and thermal stations burning coal, oil, and natural gas, has risen substantially since the early 1970s.
In 2010, 59 per cent of Canada's electrical generation was from hydroelectric sources, while the remainder was generated from coal, nuclear, natural gas, petroleum, and renewable sources other than hydro.