Search for other natural fission reactors

Precambrian uranium ores have been surveyed for evidence of other natural fission reactors. The requirements for formation of a natural reactor direct investigations to uranium deposits with large, high-grade ore zones. Massive zones with volumes approximately greater than 1 m/sup 3/ and concentrati...

Full description

Bibliographic Details
Main Authors: Apt, K.E., Balagna, J.P., Bryant, E.A., Cowan, G.A., Daniels, W.R., Vidale, R.J.
Language:unknown
Published: 2021
Subjects:
11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS
SPONTANEOUS FISSION
GEOCHEMICAL SURVEYS
URANIUM DEPOSITS
BRAZIL
CANADA
NATURAL OCCURRENCE
NATURAL RADIOACTIVITY
NORTHERN TERRITORY
PRECAMBRIAN ERA
RESEARCH PROGRAMS
SAMPLING
SOUTH WEST AFRICA
URANIUM ORES
ZAIRE REPUBLIC
AFRICA
AUSTRALASIA
AUSTRALIA
FISSION
GEOLOGIC AGES
GEOLOGIC DEPOSITS
NORTH AMERICA
NUCLEAR REACTIONS
ORES
RADIOACTIVITY
RESOURCES
SOUTH AFRICA
SOUTH AMERICA
Canada
Maurice
Great Bear Lake
Cluff Lake
Maurice Bay
Online Access:http://www.osti.gov/servlets/purl/5157401
https://www.osti.gov/biblio/5157401
Description
Summary:Precambrian uranium ores have been surveyed for evidence of other natural fission reactors. The requirements for formation of a natural reactor direct investigations to uranium deposits with large, high-grade ore zones. Massive zones with volumes approximately greater than 1 m/sup 3/ and concentrations approximately greater than 20 percent uranium are likely places for a fossil reactor if they are approximately greater than 0.6 b.a. old and if they contained sufficient water but lacked neutron-absorbing impurities. While uranium deposits of northern Canada and northern Australia have received most attention, ore samples have been obtained from the following worldwide locations: the Shinkolobwe and Katanga regions of Zaire; Southwest Africa; Rio Grande do Norte, Brazil; the Jabiluka, Nabarlek, Koongarra, Ranger, and El Sharana ore bodies of the Northern Territory, Australia; the Beaverlodge, Maurice Bay, Key Lake, Cluff Lake, and Rabbit Lake ore bodies and the Great Bear Lake region, Canada. The ore samples were tested for isotopic variations in uranium, neodymium, samarium, and ruthenium which would indicate natural fission. Isotopic anomalies were not detected. Criticality was not achieved in these deposits because they did not have sufficient /sup 235/U content (a function of age and total uranium content) and/or because they had significant impurities and insufficient moderation. A uranium mill monitoring technique has been considered where the ''yellowcake'' output from appropriate mills would be monitored for isotopic alterations indicative of the exhumation and processing of a natural reactor.

Similar Items