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Chapter 11 Nuclear Power  Energy released in combustion reactions comes from changes in the chemical bonds that hold the atom together.  Nuclear Energy.

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Presentation on theme: "Chapter 11 Nuclear Power  Energy released in combustion reactions comes from changes in the chemical bonds that hold the atom together.  Nuclear Energy."— Presentation transcript:

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2 Chapter 11 Nuclear Power

3  Energy released in combustion reactions comes from changes in the chemical bonds that hold the atom together.  Nuclear Energy involves changes within the nuclei of the atom. Small amounts of matter from the nucleus are converted into large amounts of energy  Fission: Larger atoms of certain elements are split into smaller atoms of certain elements. Power Plants.  Fusion: 2 smaller atoms are combined to make 1 large atom of a different element. Mass of the end product is less than the mass of the starting materials  released as energy. The Sun.

4 Neutron Proton Electron Atomic Number: # of protons Atomic Mass: # of protons + # of neutrons Nucleus Isotope: forms of a given element with different numbers of neutrons therefore different atomic masses. ex) Hydrogen has 1 P and no N Deuterium has 1 P and 1 N Tritium has 1 P and 2 N As a radioactive element emits radiation, its nucleus changes into the nucleus of a different element that is more stable…. Radioactive decay.

5  Each radioisotope has its own characteristic rate of decay. ◦ Half-Life: the period of time required for one half of the total amount of a radioactive substance to change into a different material.  Examples:  Iodine- 131 0.02 years ( 8.1 days)  Krypton-85 10.4 years  Plutonium- 239 24,400 years

6 ◦ U-235: produces a fission chain reaction  Critical mass: amount of U-235 required to start a chain reaction  Less than 1% of all uranium is U-235  Known as enriched uranium  Half life: 700 million years ◦ U-238  Most common (99.3%)  Half life: 4.5 billion years  When hit by a neutron it decays into PU-239 ◦ PU-239  Produced in breeder reactors from U-238  Half life: 24,000 years  Regulated by international inspections because it can be used in nuclear weapons.

7 Nuclear Fuel Cycle 1. Mining 2. Enrichment (refining process) 3. Fuel rods 4. Fuel assemblies (200 rods) 5. Reactor (~ 250 fuel assemblies) 6. Fuel is used 7. Fuel is reprocessed 8. Fuel is disposed of or sent for enrichment.

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10 1. Reactor core- heat produced by nuclear fission is used to produce steam from liquid water. 2. Steam generator- uses steam turn a turbine 3. Turbine- generates electricity from steam 4. Condenser- cools the steam converting it back to a liquid. Above each reactor core is a control rod made of metal alloy capable of absorbing neutrons. The plant will move this up and down depending on the energy needs throughout the day. Up = faster rxn Down = slower rxn

11 SAFETY…The reactor is surrounded by a huge steel pot like structure called a reactor vessel. Reactor vessel & steam generator are placed in a containment building.

12 1. Primary water circuit (orange in fig 11.5) ◦ Heats water using energy produced by the fission rxn. ◦ Circulates water under high pressure through the core ◦ Superheated water cannot expand  stays liquid. 2. Secondary Water Circuit (blue in fig 11.5) ◦ Convert the water to steam 3. Tertiary Water Circuit (green in fig 11.5) ◦ Provides cool water to the condenser cooling off spent steam in the secondary water circuit. ◦ Water moves to a cooling tower or lake.


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