H
Howard O Menlove
Researcher at University of Florida
Publications - 28
Citations - 106
Howard O Menlove is an academic researcher from University of Florida. The author has contributed to research in topics: Spent nuclear fuel & Neutron. The author has an hindex of 6, co-authored 28 publications receiving 104 citations.
Papers
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Determining plutonium in spent fuel with nondestructive assay techniques
Stephen J. Tobin,William S. Charlton,Michael L Fensin,Howard O Menlove,Andrew S. Hoover,Brian J. Quiter,A. Rajasingam,Martyn T. Swinhoe,S. J. Thompson,W S Charlton,Michael H Ehinger,Nathan P. Sandoval,Steven F Saavedra,D Strohmeyer +13 more
TL;DR: In this paper, the experimental results of one of the twelve non-destructive assay techniques - passive neutron albedo reactivity -were evaluated at Oak Ridge National Laboratory for three different burnup pins.
Experimental and Analytical Plans for the Non-Destructive Assay System of the Swedish Encapsulation and Repository Facilities
S. J. Tobin,Holly R. Trellue,A. Belian,Tom Burr,Michael L Fensin,Andrea Favalli,Jack D. Galloway,John S. Hendricks,Vladimir Henzl,Kiril D. Ianakiev,Howard O Menlove,M. Newell,P. Polk,Carlos D. Rael,P. Santi,Martyn T. Swinhoe,Timothy J. Ulrich,Duc Vo,Sophie Grape,Peter Jansson,S. Jacobsson Svärd,Tomas Martinik,Henrik Liljenfeldt,Anders Sjöland,G. Baldwin,D. Blair,Peter Schwalbach,P. De Baere,Stefano Vaccaro,Ian C Gauld,Jianwei Hu,Brandon R Grogan,Germina Ilas,Andrew Worrall,Y. Ham,Vladimir Mozin,Alexis C. Kaplan,Sara A. Pozzi,D. Meyers +38 more
TL;DR: In this article, the capability of non-destructive assay (NDA) techniques to meet the combined needs of the safeguards community and the Swedish encapsulation and repository facilities operator SKB was evaluated.
A more accurate and penetrating method to measure the enrichment and mass of UF6 storage containers using passive neutron self-interrogation
TL;DR: The Passive Neutron Enrichment Monitor (PNEM) as discussed by the authors is a new measurement technique that uses passive neutron totals and coincidence counting together with neutron self-interrogation to measure the enrichment in the cylinders.