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High-level radioactive waste (wet storage), non-used nuclear fuel High-level radioactive waste Operating [1] [2] BWX Technologies Fuel Manufacturing Peterborough, Ontario. Toronto, Ontario. BWX Technologies Nuclear Energy Canada Low-level radioactive waste Operating [1] Cameco Fuel Manufacturing Facility Port Hope, Ontario: Cameco
The Nuclear Waste Management Organization (NWMO) of Canada was established in 2002 under the Nuclear Fuel Waste Act (NFWA) [1] to investigate approaches for managing Canada's used nuclear fuel. The NWMO is the sole organization in Canada working towards the development of a deep geological repository (DGR) for the long-term storage of used ...
Radioactive waste in Canada can be grouped into three broad categories: nuclear fuel waste, low-level radioactive waste, and uranium mill tailings. The most recent inventory of these wastes is provided in the LLRWMO 2004 report. [6] At the end of 2003, the total amount of nuclear fuel waste was 6,800 m 3.
“And the public is buying on,” he said. “I can tell you that we have in Canada great public support for nuclear power.” A 2023 Ipsos poll indicates that 55% of Canadians support nuclear ...
At full production, the vitrification plant’s Low Activity Waste Facility should be processing about 5,300 gallons of waste per day or producing about 23 tons of glass per day, filling 3.5 ...
In April 2001, the Canadian federal government introduced an Act regarding the long-term management of nuclear fuel waste. Also known as the Nuclear Fuel Waste Act, this legislation came into effect on November 15, 2002. [11] However, this legislation dealt only with the long-term management of used nuclear fuel (high-level waste), not L&ILW. [12]
Transuranic (TRU) nuclear waste is sent from across the country to the WIPP site for disposal in a 2,000-foot-deep underground salt deposit, mostly made up of clothing, equipment and other ...
The advanced reprocessing of spent nuclear fuel is a potential key to achieve a sustainable nuclear fuel cycle and to tackle the heavy burden of nuclear waste management. In particular, the development of such advanced reprocessing systems may save natural resources, reduce waste inventory and enhance the public acceptance of nuclear energy.