Professional areas [edit]
Nuclear fission [edit]
Nuclear fission is the disintegration of a susceptible (fissile) atom's nucleus into two different, smaller elements and other particles including neutrons. Approximately 2.7 neutrons are released per fission, which may cause additional fissions if enough fissionable material is present. Nuclear fission is made by separating one atom.
The common types of nuclear fission include thermal fission, which is fission caused by the absorption of a relatively slow thermal neutron with kinetic energy approximately 0.125 eV. Fast fission is fission caused by the absorption of a more energetic neutron, with kinetic energy on the order of MeV. Also, in especially heavy nuclei, spontaneous fission may occur. Nuclei that are fissionable by neutrons typically carry at least a very small chance of spontaneous fission occurring.
Generally, thermal fission is used in commercial reactors, though Fast Breeder Reactors have been developed to harness fast fission.
The United States gets about 19 % of its electricity from nuclear power.[1] Nuclear engineers in this field generally work, directly or indirectly, in the nuclear power industry or for national laboratories. Current research in the industry is directed at producing economical, proliferation-resistant reactor designs with passive safety features. Although government labs research the same areas as industry, they also study a myriad of other issues such as nuclear fuels and nuclear fuel cycles, advanced reactor designs, and nuclear weapon design and maintenance. A principal pipeline for trained personnel for US reactor facilities is the Navy Nuclear Power Program.
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B-61 thermonuclear weapon
Nuclear materials and nuclear fuels [edit]
Nuclear materials research focuses on two main subject areas, nuclear fuels and irradiation-induced modification of materials. Improvement of three nuclear fuels is crucial for obtaining increased efficiency from nuclear reactors. Irradiation effects studies have many purposes, from studying structural changes to reactor components to studying nano-modification of metals using ion-beams or particle accelerators.
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Uranium ore, the principal raw material of nuclear fuel
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Radiation measurements and dosimetry [edit]
Nuclear engineers and radiological scientists are interested in the development of more advanced ionizing radiation measurement and detection systems, and using these to improve imaging technologies. This includes detector design, fabrication and analysis, measurements of fundamental atomic and nuclear parameters, and radiation imaging systems, among other things.
Nuclear engineering organizations [edit]
List of institutions offering nuclear engineering courses [edit]
List of universities in Argentina [edit]
List of universities in Bangladesh [edit]
List of universities in Brazil [edit]
List of universities in Bulgaria [edit]
List of universities in Canada [edit]
| University |
Department (external links) |
Degrees offered |
| McMaster University, Hamilton |
Engineering Physics (Nuclear Engineering Option) |
B.Eng. Phys., Dipl. Nuc.Tech, M.Eng, M.A.Sc, Ph.D. |
| University of Ontario Institute of Technology, Oshawa |
Nuclear Engineering |
B.Eng, M.Eng, M.A.Sc, Ph. D |
| École Polytechnique de Montréal, Montréal |
Institute of Nuclear Engineering |
M.Eng, M.Sc, PhD |
| Royal Military College of Canada, Kingston |
Department of Chemistry and Chemical Engineering |
M.Sc, M.A.Sc, M.Eng, PhD |
List of universities in France [edit]
List of universities in Hong Kong [edit]
List of colleges in India [edit]
| College |
Department (external links) |
Degrees offered |
| Homi Bhabha National Institute, Mumbai |
Engineering Sciences, Physical Sciences, Chemical Sciences, Health Sciences, Life Sciences, Mathematical Sciences, Strategic Studies
In the following constituent institutes: Bhabha Atomic Research Center, Indira Gandhi Center for Atomic Research, Raja Ramanna Centre for Advanced Technology, Variable Energy Cyclotron Centre, Saha Institute of Nuclear Physics, Institute for Plasma Research, Institute of Physics, Harish-Chandra Research Institute, Tata Memorial Centre and Institute of Mathematical Sciences
|
For science and engineering : PGDip, M.Phil, M.Sc(Engg), M.Tech, Ph.D.
For Health Sciences : at Tata Memorial Centre : DM (Medical Oncology), M.Ch.(Surgical Oncology), MD (Pathology), MD (Anesthesia), MD (Radiotherapy), MD (Radio-diagnosis) and Ph.D.(Health Sciences, Epidemiology) are offered
|
| Indian Institute of Technology, Kanpur |
Nuclear Engineering and Technology |
M.Tech, PhD |
| Mody Institute of Technology and Science |
[1] |
M.Tech |
| Indian Institute of Technology, Madras |
[2] |
M.Tech |
| Sastra university,Tanjore |
[3]
[4]
|
M.Tech |
| Delhi University |
[5] |
M.Tech |
| Jawaharlal Nehru Technological University, Kakinada |
[6] |
M.E |
| SRM University,Chennai |
[7] |
B.Tech, M.Tech, Ph.D |
| Jadavpur University |
[8] |
Masters of Nuclear Engineering, Faculty of engineering and Technology |
| Manipal Institute of Technology |
[9] |
M.Tech in Nuclear Engineering |
| Amity university |
Amity Institute Of Nuclear Science And Technology |
B.Tech, B.Tech+M.Tech, M.Tech in Nuclear Science And Technology |
List of universities in Indonesia [edit]
List of colleges in Israel [edit]
List of universities in Italy [edit]
List of colleges in Jordan [edit]
List of colleges in Kenya [edit]
List of colleges in Mexico [edit]
List of colleges in Pakistan [edit]
List of colleges in Russian Federation [edit]
List of universities in South Africa [edit]
North-West University University of the Witwatersrand
List of universities in Sweden [edit]
List of universities in Switzerland [edit]
List of colleges in Turkey [edit]
List of universities in the United Arab Emirates [edit]
Khalifa University of Science
University of Sharjah
List of universities in the United Kingdom [edit]
List of colleges and universities in the United States [edit]
| College |
Department (external links) |
Degrees offered |
| Air Force Institute of Technology |
Engineering Physics |
MS, PhD |
| Arkansas Tech University |
Nuclear Engineering |
MEng, BS |
| Colorado School of Mines |
Nuclear Engineering |
MS,PhD |
| Cornell University |
School of Applied and Engineering Physics |
BS,MEng,PhD |
| Drexel University |
Electrical and Computer Engineering |
Minor |
| Georgia Institute of Technology |
Nuclear and Radiological Engineering |
BS,MS,PhD |
| Idaho State University |
Institute of Nuclear Science and Engineering |
BS,MS,PhD |
| Iowa State University |
Undergraduate Minor in Nuclear Engineering |
Minor |
| Kansas State University |
Mechanical and Nuclear Engineering |
BS,MS,PhD |
| Massachusetts Institute of Technology |
Nuclear Science and Engineering |
BS,MS,PhD |
| Missouri University of Science and Technology |
Nuclear Engineering |
BS,MS,PhD |
| North Carolina State University |
Nuclear Engineering |
BS,MS,PhD |
| Ohio State University |
Nuclear Engineering |
MS,PhD |
| Oregon State University |
Nuclear Engineering and Radiation Health Physics |
BS,MS,PhD |
| Pennsylvania State University |
Mechanical and Nuclear Engineering |
BS,MS,PhD |
| Pennsylvania State University |
Distance Learning Program in Nuclear Engineering |
M.Eng. |
| Polytechnic Institute of New York University |
Applied Physics & Mechanical and Aerospace Engineering |
Minor |
| Purdue University |
Nuclear Engineering |
BS,MS,PhD |
| Rensselaer Polytechnic Institute |
Mechanical, Aerospace & Nuclear Engineering |
BS,MS,PhD |
| South Carolina State University |
Nuclear Engineering |
BS |
| Southern Polytechnic State University |
Systems Engineering |
Minor, MS |
| Texas A&M University |
Nuclear Engineering |
BS,MS,PhD |
| University of California, Berkeley |
Nuclear Engineering |
BS,MS,PhD |
| University of Cincinnati |
Mechanical, Industrial and Nuclear Engineering |
MS,PhD |
| University of Florida |
Nuclear and Radiological Engineering |
BS,MS,PhD |
| University of Idaho |
Nuclear Engineering |
MS,PhD |
| University of Illinois at Urbana-Champaign |
Nuclear, Plasma and Radiological Engineering |
BS,MS,PhD |
| University of Maryland, College Park |
Materials and Nuclear Engineering |
MS,PhD |
| University of Massachusetts Lowell |
Chemical Engineering |
BS,MS |
| University of Michigan, Ann Arbor |
Nuclear Engineering and Radiological Sciences |
BS,MS,PhD |
| University of Missouri |
Nuclear Science and Engineering Institute |
MS,PhD |
| University of Nevada, Las Vegas |
Materials and Nuclear Engineering |
MS |
| University of New Mexico |
Chemical and Nuclear Engineering |
BS,MS,PHD |
| University of Rhode Island |
Mechanical Engineering |
Minor |
| University of South Carolina |
Nuclear Engineering |
ME,MS,PhD |
| University of Tennessee at Knoxville |
Nuclear Engineering |
BS,MS,PhD |
| University of Texas at Austin |
Nuclear and Radiation Engineering |
MS,PhD |
| University of Utah |
Nuclear Engineering |
ME, MS, PhD |
| University of Wisconsin–Madison |
Nuclear Engineering and Engineering Physics |
BS,MS,PhD |
| United States Military Academy |
Nuclear Engineering |
BS |
| Virginia Commonwealth University |
Nuclear Engineering |
MS |
Naval Nuclear Power School [edit]
The US Navy runs a program called Naval Nuclear Power School to train both officers and enlisted sailors for nuclear plant operation. While some officers have undergraduate backgrounds in nuclear engineering, any officers who take the requisite math and science classes are also accepted, whereas most of the enlisted students hold no college degrees at all. Despite this, they are prepared, through a rigorous training program (lasting between 16 months for Machinist's Mates and eighteen months for Electronics Technicians and Electrician's Mates), to operate the nuclear and steam plants aboard the navy's submarines and aircraft carriers. This training carries a specific type of Department of Energy certification that applies only to Naval Nuclear Reactors, however, many sailors choose to work at civilian power plants after their six-year obligations are completed.
See also [edit]
References [edit]
- ^ http://www.eia.doe.gov/cneaf/electricity/epm/tablees1a.html
http://www.stmjournals.com
Further Reading [edit]
- 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
External links [edit]
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