Nuclear engineering
Nuclear engineering is the engineering discipline concerned with the design and application of systems that make use of the energy released by nuclear processes.[1][2] The most prominent application of nuclear engineering is the generation of electricity. Worldwide, some 440 nuclear reactors in 32 countries generate 10 percent of the world's energy through nuclear fission.[3] In the future, it is expected that nuclear fusion will add another nuclear means of generating energy.[4] Both reactions make use of the nuclear binding energy released when atomic nucleons are either separated (fission) or brought together (fusion). The energy available is given by the binding energy curve, and the amount generated is much greater than that generated through chemical reactions. Fission of 1 gram of uranium yields as much energy as burning 3 tons of coal or 600 gallons of fuel oil,[5] without adding carbon dioxide to the atmosphere.[6]
What nuclear engineers do
Nuclear engineers work in such areas as the following:[7][8][9]
- Nuclear reactor design, which has evolved from the Generation I, proof-of concept, reactors of the 1950s and 1960s,[10] to Generation II, Generation III, and Generation IV concepts
- Thermal hydraulics and heat transfer. In a typical nuclear power plant, heat generates steam that drives a steam turbine and a generator that produces electricity
- Materials science as it relates to nuclear power applications
- Managing the nuclear fuel cycle, in which fissile material is obtained, formed into fuel, removed when depleted, and safely stored or reprocessed
- Nuclear propulsion, mainly for military naval vessels, but there have been concepts for aircraft and missiles. Nuclear power has been used in space since the 1960s
- Plasma physics, which is integral to the development of fusion power
- Weapons development and management
- Generation of radionuclides, which have applications in industry, medicine, and many other areas
- Nuclear waste management
- Health physics
- Nuclear medicine and Medical Physics
- Health and safety
- Instrumentation and control engineering
- Process engineering
- Project Management
- Quality engineering
- Reactor operations[11]
- Nuclear security (detection of clandestine nuclear materials)[12]
- Nuclear engineering even has a role in criminal investigation,[13] and agriculture.[14]
Many chemical, electrical and mechanical and other types of engineers also work in the nuclear industry, as do many scientists and support staff. In the U.S., nearly 100,000 people directly work in the nuclear industry. Including secondary sector jobs, the number of people supported by the U.S. nuclear industry is 475,000.[15]
History of nuclear engineering
An argument can be made that nuclear engineering was born in 1938, with the discovery of nuclear fission.[16] However, from the engineering perspective of applying science to create something new, a more fitting beginning might be 1942, when Chicago Pile-1 (CP-1) began operating at the University of Chicago as a part of the Manhattan Project. The first artificial nuclear reactor, CP-1 was designed by a team of physicists who were concerned that Nazi Germany might also be seeking to build a bomb based on nuclear fission. (The earliest known nuclear reaction on Earth occurred naturally, 1.7 billion years ago, in Oklo, Gabon, Africa.) The second artificial nuclear reactor, the X-10 Graphite Reactor was also a part of the Manhattan Project, as were the plutonium-producing reactors of the Hanford Engineer Works.
The first nuclear reactor to generate electricity was Experimental Breeder Reactor I (EBR-I), which did so near Arco, Idaho, in 1951.[17] EBR-I was a standalone facility, not connected to a grid, but a later Idaho research reactor in the BORAX series did briefly supply power to the town of Arco in 1955.
The first commercial nuclear power plant, built to be connected to an electrical grid, is the Obninsk Nuclear Power Plant, which began operation in 1954. The second appears to be the Shippingport Atomic Power Station, which produced electricity in 1957.
For a brief chronology, from the discovery of uranium to the current era, see Outline History of Nuclear Energy or History of Nuclear Power.
See List of Commercial Nuclear Reactors for a comprehensive listing of nuclear power reactors and IAEA Power Reactor Information System (PRIS) for worldwide and country-level statistics on nuclear power generation.
Where nuclear engineers work
In the United States, nuclear engineers are employed as follows:[18]
- Electric power generation 25%
- Federal government 18%
- Scientific research and development 15%
- Engineering services 5%
- Manufacturing 10%
- Other areas 27%
Worldwide, job prospects for nuclear engineers are likely best in those countries that are active in or exploring nuclear technologies:
Nuclear engineering schools and training
Organizations that provide study and training in nuclear engineering include the following:
Nuclear engineering organizations
- American Nuclear Society
- Asian Network for Education in Nuclear Technology (ANENT) https://www.iaea.org/services/networks/anent
- Canadian Nuclear Association
- Chinese Nuclear Society
- International Atomic Energy Agency
- International Energy Agency (IEA)
- Japan Atomic Industrial Forum (JAIF)
- Korea Nuclear Energy Agency (KNEA)
- Latin American Network for Education in Nuclear Technology (LANENT) https://www.iaea.org/services/networks/lanent
- Minerals Council of Australia
- Nucleareurope
- Nuclear Institute
- Nuclear Energy Institute (NEI)
- Nuclear Industry Association of South Africa (NIASA)
- Nuclear Technology Education Consortion https://www.ntec.ac.uk/
- OECD Nuclear Energy Agency (NEA)
- Regional Network for Education and Training in Nuclear Technology (STAR-NET) https://www.iaea.org/services/networks/star-net
- World Nuclear Association
- World Nuclear Transport Institute
See also
- Atomic engineering
- Atomic physics
- Chernobyl nuclear disaster
- Fukushima nuclear disaster
- International Nuclear Event Scale
- List of books about nuclear issues
- Lists of nuclear disasters and radioactive incidents
- List of nuclear reactors
- List of nuclear power stations
- Nuclear energy policy
- Nuclear fuel
- Nuclear criticality safety
- Nuclear material
- Nuclear physics
- Nuclear power
- Nuclear reactor technology
- Nuclear renaissance
- Safety engineering
- Thermal hydraulics
- Waste Isolation Pilot Plant
References
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- "Nuclear Engineering". Britannica. Retrieved 19 April 2023.
- "Nuclear Power in the World Today". World Nuclear Association. Retrieved 6 April 2023.
- Thompson, Jess. "When Can We Expect Nuclear Fusion?". Newsweek. Retrieved 6 April 2023.
- "Nuclear Fission Energy". Lawrence Livermore. Retrieved 6 April 2023.
- "Nuclear power and the environment". EIA. U.S. Energy Information Administration. Retrieved 7 April 2023.
- Martin and Bornstein. "Nuclear Engineering". Britannica. Retrieved 6 April 2023.
- "Nuclear engineer job profile | Prospects.ac.uk". www.prospects.ac.uk. Retrieved 2019-12-13.
- "What Nuclear Engineers Do". Occupational Outlook Handbook. U.S. Bureau of Labor Statistics. Retrieved 16 April 2023.
- Goldberg and Rosner. "The History of Reactor Generations". American Academy of Arts and Sciences. Retrieved 9 April 2023.
- "Operation and maintence of nuclear power plants". IAEA. 13 April 2016. Retrieved 9 April 2023.
- "Environmental Detection of Clandestine Nuclear Weapon Programs" (PDF). MIT. Retrieved 21 April 2023.
- "Nuclear Techniques Help to Solve Crimes". EIA. 23 December 2003. Retrieved 7 April 2023.
- "5 Incredible Ways Nuclear Powers Our Lives". Energy.gov. US Department of Energy. Retrieved 6 April 2023.
- "Jobs". NEI. Retrieved 9 April 2023.
- "The Discovery of Fission". The Manhattan Project: an interactive history. US Department of Energy. Retrieved 7 April 2023.
- "The World's First Nuclear Power Plant". Idaho National Engineering Laboratory. US Department of Energy. Retrieved 7 April 2023.
- Townsend, L. W.; Brady, L.; Lindegard, J.; Hall, H. L.; McAndrew‐Benavides, E.; Poston, J. W. (2022). "Nuclear engineering workforce in the United States". Journal of Applied Clinical Medical Physics. 23 (Suppl 1): e13808. doi:10.1002/acm2.13808. PMC 9880971. PMID 36305037.
- "Austria JRC Report" (PDF). IAEA. IAEA. Retrieved 10 April 2023.
- "Experience Creates Safety". Nuclear Engineering Siebersdorf. Retrieved 10 April 2023.
- "IAEA Technical Cooperation in Africa" (PDF). Retrieved 19 April 2023.
- "IAEA Banner Asian Network for Education in Nuclear Technology (ANENT)". IAEA. 18 April 2019. Retrieved 19 April 2023.
- "IAEA Technical Communication Program" (PDF). IAEA. Retrieved 19 April 2023.
- "Nuclear Engineering Help create the technologies of the future". UNSW Sydney. Retrieved 19 April 2023.
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- "۱۳ مدرسه اتمی در کشور داریم/ برنامه ریزی برای احداث مدارس جدید". خبرگزاری ایلنا (in Persian). 2023-08-02. Retrieved 2023-08-02.
- "طرح محققان دانشگاه صنعتی اصفهان در بزرگترین پروژه علمی دنیا پذیرفته شد". ایمنا (in Persian). 2020-11-22. Retrieved 2023-08-02.
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- "BACHELOR OF ENGINEERING (NUCLEAR)". UTM Faculty of Chemical and Energy Engineering. Retrieved 19 May 2023.
- "Universiti Teknologi Malaysia (UTM)". Malaysian Qualifications Register. Retrieved 19 May 2023.
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Further reading
- Ash, Milton, "Nuclear reactor kinetics", McGraw-Hill, (1965)
- Cravens, Gwyneth. Power to Save the World (2007)
- Gowing, Margaret. Britain and Atomic Energy, 1939–1945 (1964).
- Gowing, Margaret, and Lorna Arnold. Independence and Deterrence: Britain and Atomic Energy, Vol. I: Policy Making, 1945–52; Vol. II: Policy Execution, 1945–52 (London, 1974)
- Johnston, Sean F. "Creating a Canadian Profession: The Nuclear Engineer, 1940–68," Canadian Journal of History, Winter 2009, Vol. 44 Issue 3, pp 435–466
- Johnston, Sean F. "Implanting a discipline: the academic trajectory of nuclear engineering in the USA and UK," Minerva, 47 (2009), pp. 51–73