ANS is committed to advancing, fostering, and promoting the development and application of nuclear sciences and technologies to benefit society.
Explore the many uses for nuclear science and its impact on energy, the environment, healthcare, food, and more.
Division Spotlight
Operations & Power
Members focus on the dissemination of knowledge and information in the area of power reactors with particular application to the production of electric power and process heat. The division sponsors meetings on the coverage of applied nuclear science and engineering as related to power plants, non-power reactors, and other nuclear facilities. It encourages and assists with the dissemination of knowledge pertinent to the safe and efficient operation of nuclear facilities through professional staff development, information exchange, and supporting the generation of viable solutions to current issues.
Meeting Spotlight
ANS Student Conference 2025
April 3–5, 2025
Albuquerque, NM|The University of New Mexico
Standards Program
The Standards Committee is responsible for the development and maintenance of voluntary consensus standards that address the design, analysis, and operation of components, systems, and facilities related to the application of nuclear science and technology. Find out What’s New, check out the Standards Store, or Get Involved today!
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Latest News
Grant awarded for advanced reactor workforce needs in southeast U.S.
North Carolina State University and the Electric Power Research Institute have been awarded a $500,000 grant by the NC Collaboratory for “An Assessment to Define Advanced Reactor Workforce Needs,” a project that aims to investigate job needs to help enable new nuclear development and deployment in North Carolina and surrounding areas.
D. Anderson, T. Fülöp, M. Lisak, F. Wising
Nuclear Science and Engineering | Volume 129 | Number 1 | May 1998 | Pages 51-60
Technical Paper | doi.org/10.13182/NSE98-A1962
Articles are hosted by Taylor and Francis Online.
New approximation procedures are presented for obtaining the transverse integrated scalar flux for the diffusive scattering of an initially unidirectional particle beam. The approach is based on the characteristic similarity properties of the diffusion dynamics and provides direct and simple approximations in good agreement with previous results obtained by systematic expansion techniques. A detailed numerical investigation of the diffusion dynamics is also made, which benchmarks and illustrates the good accuracy of the analytical results.
