Nuclear Energy Chapter 12
Nuclear Fuel Cycle Uranium mines and mills U-235 enrichment Fabrication of fuel assemblies Nuclear power plant Uranium tailings Depleted uranium tails Factory wastes Low-level wastes Spent fuel stored on-site Deep geological disposal Spent fuel reprocessing
Politics
Enrichment Enrichment Methods: Gaseous & Centrifuge Both require repeated steps UF 6 (Uranium Hexaflouride) is uranium of all weights mixed with flourine gas U 235 is enriched to 3-5% from 0.7% Enriched U-235 (1 pellet) containing uranium enriched to 3% = one ton of coal
Centrifuges
Georgia Power Vogle +2 Georgia’s Electrical Generation Coal 74% Nuclear 18% - France 75% Oil & Gas <6% Hydro <3% Renewable
Introduction to the Nuclear Process Fission – nuclear energy released when atom split Fusion – nuclear energy released when atoms fused
Fuel Assembly A fuel assembly consists of a square array of 179 to 264 fuel rods, and 121 to 193 fuel assemblies are loaded into an individual reactor - numbers vary greatly
Fuel Assembly
Nuclear Fission How Electricity is Produced from Conventional Nuclear Fission Primary/Secondary/Tertiary water circuits? Vogtle Power Plant
Cooling Towers
Cooling water absorbs heat in the condenser and is pumped to the cooling towers where the water pours over a horizontal grid. Upward airflow cools it off. A minor part of the cold cooling water flows back into the river.
Spent Fuel Storage
Pu-239 Breeder Reactor U-235 <1% of worlds uranium Most available U-238 Issues: Pu- 239 extremely carcinogenic Half-life 24,000 years Sodium coolants are explosively reactive The plutonium-239 core is surrounded by a layer of uranium-238 – which becomes or is “bred” into U-239 U-235 could run for 200 years at current rates of consumption. Breeder reactors could match today's nuclear output for 30,000 years
Pros and Cons of Nuclear Energy Impact CoalNuclear Land use 17,000 ac1,900 ac Daily fuel requirement 9,000 tons/day3 kg/day Air pollution Moderate to severe Low Radioactive emissions 1 curie28,000 curies Risk from catastrophic accidents Short-term local risk Long-term risk over large area
Accidents Can Happen
Three Mile Island 1979, Three Mile Island plant in PA the most serious nuclear reactor accident in the USA -human error (cooling system failed) -50% meltdown of reactor core Luckily, containment building kept radioactivity from releasing into the countryside
What caused 3 miles island? 1.Minor malfunction in cooling causes Emergency shutdown 1.Steam relief valve opens but does not close as it should 1.Instruments indicate valve had closed 1.Coolant levels dropped and reactor heated up 1.Later that day hydrogen gas build-up threatened an explosion
Chernobyl Disaster 1986, Ukraine (former Soviet Union) Worst accident ever (?) to occur at a nuclear power plant
Safety Issues in Nuclear Power Plants Radioactive fallout from Chernobyl:
What caused Chernobyl? 1.Plant operators ran a safety test of back-up safety systems - specifically the generators that would power coolant 2.Control rods were removed and when “SCRAM” was initiated 1.Control rods jammed 1/3 of the way in as fuel rods warped 1.Explosion was from steam pressure followed y fire as oxygen mixed with heated graphite
Impact Fire broke out and explosions spread radioactive waste 350,000 people relocated 4,000 Deaths 2 million acres of farmland lost 1,700,000 acres of forest lost Resurgent animals? 01/14/chernobyl.nature.radiation.debate/ind ex.htmlhttp:// 01/14/chernobyl.nature.radiation.debate/ind ex.html
Japan Tsunami: jklR50 jklR50
The Future of Nuclear Power Issues: Making nuclear power safer Standardizing power plant designs Decommissioning Nuclear Power Plants Lowering construction costs Securing Long Term Waste Storage Monitoring storage - weapons