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Aerospace Nuclear Science & Technology
Organized to promote the advancement of knowledge in the use of nuclear science and technologies in the aerospace application. Specialized nuclear-based technologies and applications are needed to advance the state-of-the-art in aerospace design, engineering and operations to explore planetary bodies in our solar system and beyond, plus enhance the safety of air travel, especially high speed air travel. Areas of interest will include but are not limited to the creation of nuclear-based power and propulsion systems, multifunctional materials to protect humans and electronic components from atmospheric, space, and nuclear power system radiation, human factor strategies for the safety and reliable operation of nuclear power and propulsion plants by non-specialized personnel and more.
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2024 ANS Annual Conference
June 16–19, 2024
Las Vegas, NV|Mandalay Bay Resort and Casino
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
NRC updating GEIS rule for new nuclear technology
The Nuclear Regulatory Agency is issuing a proposed generic environmental impact statement (GEIS) for use in reviewing applications for new nuclear reactors.
In an April 17 memo, NRC secretary Carrie Safford wrote that the commission approved NRC staff’s recommendation to publish in the Federal Register a proposed rule amending 10 CFR Part 51, “Environmental Protection Regulations for Domestic Licensing and Related Regulatory Functions.”
Rubin Goldstein
Nuclear Science and Engineering | Volume 48 | Number 3 | July 1972 | Pages 248-254
Technical Paper | doi.org/10.13182/NSE72-A22483
Articles are hosted by Taylor and Francis Online.
The Intermediate Resonance (IR) formulation of resonance absorption is extended to the temperature-dependent case by obtaining an explicit expression for the IR parameters as a function of temperature. Use is made of the tabulated J functions. The resonance integral is given in terms of a temperature-dependent J function as a function of a temperature-dependent IR parameter and represents the complete generalization of the IR formulation to the temperature-dependent case. The temperature-dependent solutions obtained are similar in analytic form to the zero-temperature solutions and they reduce to the latter in the limit of zero temperature. They also yield the correct narrow or wide resonance limits for all temperatures. The formulation using temperature-dependent IR parameters not only gives accurate temperature-dependent resonance integrals, but also gives reasonably accurate Doppler coefficients.
