Nuclear Waste High Low Level Waste Low level

High /Low Level Waste • Low level waste: generated at hospitals, educational facilities, nuclear

High Level Radioactive Waste • Two major categories: • 1) Fission Products: elements that

After 600 years, radioactivity has dropped by a factor of over 10, 000. A

• The largest producer of radioactive waste is the military defense programs •

Spent nuclear fuel is currently stored on site in pools

Yucca Mountain • The Nuclear Waste Policy Act (1982) and its Amendment Act (1987)

It just looks like a place to store nuclear waste.

Basic Characteristics • The rock formation is 13 million year old volcanic tuff. •

• Tuff can trap any radionuclides that may leak by adsorption within the

Plans called for multiple barriers • Waste is first encapsulated in glass or ceramic

• Funding ended for the site in 2011, and the site has been

• Non US governmental organizations currently have no long term storage sites for

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Nuclear Waste

High /Low Level Waste • Low level waste: generated at hospitals, educational facilities, nuclear power plants and industry. • Examples: radio-chemicals, contaminated gloves, papers, machine parts etc. • Usually disposed of in shallow trenches at privately owned sites in Nevada, South Carolina, Utah and Washington.

Low Level Waste disposal

High Level Radioactive Waste • Two major categories: • 1) Fission Products: elements that result from the fission process. A couple of important examples are 137 Cs and 90 Sr. • 2) Actinides: Formed by neutron absorption by the original fuel. Elements with Atomic numbers greater than 88. Extremely toxic chemically as well as being radioactive. Example: 239 Pu.

After 600 years, radioactivity has dropped by a factor of over 10, 000. A reasonable storage time is 1000 years.

• The largest producer of radioactive waste is the military defense programs • 80, 000 gallons of liquid waste are stored at Hanford, Washington. (500, 000 gallons leaked into the ground over a number of years. ) • The waste from 1 years operation of a 1000 MW plant is approximate 2 m 3.

Spent nuclear fuel is currently stored on site in pools

Long Term Disposal

Yucca Mountain • The Nuclear Waste Policy Act (1982) and its Amendment Act (1987) established a national policy for nuclear waste disposal. • In 1987 the Yucca Mountain, Nevada site was selected as the primary candidate for the long term deposit site. • The site was extensively evaluated

It just looks like a place to store nuclear waste.

Basic Characteristics • The rock formation is 13 million year old volcanic tuff. • Very dry climate (less than 6 in of rain per year. ) • The water table is 1700 feet down. • Groundwater travel laterally about 1 mile in 3400 to 8300 years. • Nearest surface water is 30 miles away.

• Tuff can trap any radionuclides that may leak by adsorption within the rock. • The government already owns the site. • Funding ended for the site in 2011, and the site has been closed.

Plans called for multiple barriers • Waste is first encapsulated in glass or ceramic beads. • Waste is placed in stainless steel canisters • Canisters are located in storage rooms in stable rock formations. Rooms are backfilled with material to retard penetration of water

Routes for Nuclear Waste

• Funding ended for the site in 2011, and the site has been closed. • The Government Accountability Office (GAO) stated that the closure was for political reasons

• Non US governmental organizations currently have no long term storage sites for high-level waste • The US government stores waste at the Waste Isolation Pilot Plant in New Mexico. • Other waste is stored on-site.

Current Nuclear Waste Storage Sites