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Division Spotlight
Decommissioning & Environmental Sciences
The mission of the Decommissioning and Environmental Sciences (DES) Division is to promote the development and use of those skills and technologies associated with the use of nuclear energy and the optimal management and stewardship of the environment, sustainable development, decommissioning, remediation, reutilization, and long-term surveillance and maintenance of nuclear-related installations, and sites. The target audience for this effort is the membership of the Division, the Society, and the public at large.
Meeting Spotlight
Utility Working Conference and Vendor Technology Expo (UWC 2024)
August 4–7, 2024
Marco Island, FL|JW Marriott Marco Island
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
Oklo completes end-to-end demonstration of advanced fuel recycling
Oklo Inc. has announced that it has completed the first end-to-end demonstration of its advanced fuel recycling process as part of an ongoing $5 million project in collaboration with Argonne and Idaho National Laboratories. Oklo’s goal: scaling up its fuel recycling capabilities to deploy a commercial-scale recycling facility that would increase advanced reactor fuel supplies and enhance fuel cost effectiveness for its planned sodium fast reactors.
G. Dharmadurai
Nuclear Technology | Volume 112 | Number 2 | November 1995 | Pages 295-298
Technical Note | Nuclear Fuel Cycle | doi.org/10.13182/NT95-A35180
Articles are hosted by Taylor and Francis Online.
A new expression is derived for estimating transient thermal conductance across two surfaces of nuclear materials bounding a gas. It considers two-surface thermal resistances in series with a parallel combination of two bulk thermal resistances arising from molecular and acoustic modes of heat pulse propagation in the interstitial gas. The resulting estimates offer the first technical explanation for the excess gap conductance observed during heat pulse propagation between UO2 and Zircaloy surfaces through heavier inert gases like argon.
