Nuclear Power:

1. Nuclear Power: Our Misunderstood Friend

2. Overview • Growing Demand for Energy • Comparison of Nuclear with Other Forms of Energy • Disposal of Waste • Safety of Nuclear Energy

3. Growing Demand for Electricity • Steady increase in demand • Impact of electric drive vehicles on demand • Impact of EGU MACT legislation on demand

5. Chevy Volt • Can drive 35 miles before gasoline engine starts • Takes 10 hours to charge on a 120 volt line • Takes 4 hours to charge on a 240 volt line

6. EGU MACT legislation: Could close 20-30% of plants

7. Nuclear as compared with other technologies: How does it stack up?

8. Better for the environment because it is renewable Generates at a capacity of 20-40% Rate of Injury of Workers Wind

9. Solar • Better for the environment because it is renewable • Can only generate at a capacity of 20-40% • Battery technology

10. Nuclear vs. Coal Nuclear Coal 80% of electricity generated by DTE Emissions Mining, transport, burning Low energy content Large fluctuations in cost of fuel High cost lies in fuel • About 19% of electricity generated by DTE • Radioactive waste • Less than 0.00001% fuel of coal • High energy content • Less susceptible to fluctuation • High initial cost

11. *CCGT is a type of coal powered plant

12. Nuclear Power in France • 75% electricity from nuclear • 17% electricity from recycled nuclear power • Generate 3 billion euro annually by selling to the rest of Europe

13. Disposal of Waste • Types of Nuclear Waste • Disposal of Nuclear waste • Amount Generated • Repository

15. Types of Waste • Gaseous

16. Types of Waste • Liquid

17. Types of Waste • Solid

18. Disposal of Nuclear Waste • On Site Repository

19. Disposal of Nuclear Waste in Yucca Mountain

20. Disasters • Chernobyl • 3 Mile Island • Japan

21. Chernobyl

22. What Happened • Failed Experiment • Ignored Warnings • Explosion • Runaway Nuclear Reactor

23. Effects of Chernobyl • 100,000 km2 of contamination • Rise in Thyroid Cancer • Treatment 96% Effective. • Could have been prevented. • Liquidators and Acute Radiation Sickness • Firefighters in the Plant. • Cancer Rates in Highly Contaminated Group • 4000 Extra Cancer Deaths among 600,000 People. • Cancer Rates of People in Contaminated Zones • 5000 Extra Cancer Deaths among 5 Million People

24. How Modern Reactors Differ From Old Soviet Reactors • RBMK Reactor • Water Cooled • Graphite Rod Moderators • No Containment Vessel • Light Water Reactor • Water Cooled • Water Moderated • Steel and Concrete Containment Vessel

25. 3 Mile Island

27. Effects • Average Dose of Radiation • 1 millirem • 1/6th radiation produced by a chest x-ray • Maximum Dose of Radiation • Less than 100 millirem • Background Radiation 100 to 125 millirems per year • Radioactive Isotopes • Very Low Levels Detected • Radiation Contained • Containment vessel was not breached

28. Aftermath • NRC given more control of power plants • Human Error • Operator training improved by lessons learned. • 2 Full Time inspectors at each site. • Design Problems • Improved controls and indicators. • Piping system revamped. • Component Failures • Auxiliary Coolant Systems. • Automatic Shutdown.

29. Fukushima Daiichi

30. What Happened • Earthquake • Tsunami • Systems Offline • Meltdown

31. Effects • No Containment Breaches • Release of Iodine 131 and Cesium 137 • Evacuation around the plant • Contaminated food • No deaths caused by the accident

32. Overview • Growing Demand for Energy • Comparison of Nuclear with Other Forms of Energy • Disposal of Waste • Safety of Nuclear Energy

33. Our No Longer Misunderstood Friend Nuclear Power: