Nuclear reactor

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Revision as of 05:59, 5 November 2012 by imported>Henry A. Padleckas (mentioned nuclear fission chain reactions and breeding nuclear fuel in intro section; added "Fundamentals" section)
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A nuclear reactor is a unit or vessel, including associated equipment and material, in which controlled nuclear reactions take place for a variety of purposes. These reactions generally involve controlled nuclear fission chain reactions with a neutron flux. These purposes may include heat generation for electrical generation, marine propulsion, or heating industrial plants or other facilities; breeding nuclear fuel; the preparation of radioactive isotopes for use in nuclear medicine, industrial testing, or creating controlled sources of radiation; production of nuclear materials such as plutonium or tritium; or making materials temporarily radioactive for procedures such as neutron activation analysis. While there can be some overlap of functions, larger reactors tend to be optimized for a single purpose; part of the design failures causing the Chernobyl Disaster were that the reactor tried to be equally effective for electric power and plutonium generation.

Fundamentals

For power generation, nuclear reactors are the centerpiece of nuclear power plants. Up to this time, nuclear reactors for large scale power generation use energy released by nuclear fission, which is highly exothermic, meaning it releases heat. These nuclear fission reactions take place by a controlled nuclear chain reaction in the reactor core inside the reactor. The material undergoing the fission in the core is considered the nuclear fuel. The nuclear fuel consists of fissile isotopes, atoms of isotopes of high atomic number and mass which can readily undergo fission to produce a nuclear chain reaction. The three most common fissile isotopes are uranium-235 (235U), plutonium-239 (239Pu), and uranium-233 (233U). Material that can be bred into such fissile isotopes may also be considered nuclear fuel; for example, uranium-238 (238U) can be bred to produce plutonium-239 and thorium-232 (232Th) can be bred to produce uranium-233.

Core

Moderators

Cooling

Reactors of any appreciable size are liquid- or gas-cooled. The most common liquid coolant is highly purified water, or "light water" to differentiate it from heavy water. Heavy water cooling, which plays a part in moderation, has specific applications in reactors that produce plutonium or tritium. For some power producing reactors, there has been continuing experimentation with liquid sodium, which has advantages for heat transfer.

Output

Waste

Surveillance

Reactors designated as being for peaceful purposes are under the inspection of the International Atomic Energy Agency, which makes physical inspections, and also installs unmanned but tamperproof seals on certain reactor components, as well as on-site cameras and other instrumentation.

Soviet plutonium-producing reactors released 85krypton, detectable by air sampling. [1]

References

  1. Jeffrey Richelson (2006), Spying on the Bomb: American Nuclear Intelligence from Nazi Germany to Iran and North Korea, W.W. Norton, ISBN 8769393053838, p. 114