1 / 19

Nuclear Power Generation In The United States

Nuclear Power Generation In The United States. 103 Nuclear Power Reactors. Steam Engines. Outline. Electric Power Generation What About Accidents? Safety By Design and Operation. Waste Contained in Used Fuel Assemblies, Cooling-off In Pools.

laird
Télécharger la présentation

Nuclear Power Generation In The United States

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Nuclear Power GenerationIn The United States

  2. 103 Nuclear Power Reactors

  3. Steam Engines

  4. Outline • Electric Power Generation • What About Accidents? • Safety By Design and Operation

  5. Waste Contained in Used Fuel Assemblies, Cooling-off In Pools

  6. Loaded into Steel Containers, Stored in Concrete Casks

  7. Steel Containers Buried Deep UndergroundWHEN?/WHERE?

  8. Three Mile Island (TMI) • March 28th 1979, Unit 2 reactor trips at 4 AM. (The movie “China Syndrome” is playing in theaters) • Pressurer relief value sticks open, lose of cooling accident (LOCA) begins. • Hampered by inadequate training and instrumentation, operators shut off emergency core cooling. • By 6:30 AM, blocking value is closed, shutting off the loss of coolant but … • The water level has fallen below the top of the reactor core. The fuel rods containing the uranium fuel pellets melt and release radioactive gas into the Containment Building.

  9. TMI: Hydrogen “Bubble” • When the fuel rods melt, hydrogen gas is generated. • A “bubble” of hydrogen gas collects in the reactor head. • Fear that the hydrogen could explode result in confusion, panic. About 150,000 people evacuate. • However, the hydrogen explosion was never possible (not enough oxygen) • Major lessons: • Better operator training • Better emergency planning

  10. TMI: Consequences • Public confidence is severely damaged. • Many health effects studies have been conducted. In 1996, a U.S. District Court dismisses all lawsuits finding no evidence of harm. • Improvements to operator training, instrumentation, and emergency plans are now required.

  11. Chernobyl

  12. Chernobyl • April 1986 disaster at Chernobyl in the Ukraine was a result of a dangerous reactor design and weak operational controls. • Weak Operational Control: • Poorly trained operators were performing a dangerous and unauthorized “test”. • Dangerous Reactor Design: • A “positive” temperature coefficient of “reactivity” resulted in a huge power surge that cause water to flash to steam, blowing the cover plate off the top of the reactor… • Broken pipes spilled water onto the hot “graphite” moderator, which bursts into flames.

  13. Flawed Reactor Design graphite core & unstable reactor

  14. Environmental Pathways 82% of the iodine exposure was avoidable

  15. Chernobyl: Consequences • Huge release of radioactive material, distributed around Europe. • World confidence is severely damaged.

  16. Fuel Rods Typical values: • The uranium fuel is made of solid ceramic pellets. • The fuel pellets are sealed inside 13’ long zirconium alloy rods. • 236 rods in each assembly • 217 assemblies in the reactor core

  17. Reactor Vessel Typical values: • Weight: 400 tons • Thickness: 8 inches Fuel Assemblies (Core)

  18. PWR Containment Initial Construction Completed Concrete Dome

  19. Regulatory Control Nuclear Regulatory Commission Headquarters Rockville, Maryland (www.nrc.gov)

More Related