A.E. Ogard scite author profile

A.E. Ogard

5Publications

186Citation Statements Received

18Citation Statements Given

How they've been cited

187

178

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Affiliations

Los Alamos National Laboratory

Publications

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Groundwater chemistry along flow paths between a proposed repository site and the accessible environment

Ogard¹,

Kerrisk²

1984

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The Nevada Nuclear Waste Storage Investigations Program of the Department of Energy is investigating Yucca Mountain in the Nevada Test Site as a possible repository location. As part of this investigation, the groundwater from all pumped wells in and near the site has been sampled and analyzed; the results are reported in this document. The speciation and solubility of nuclear waste elements in these groundwaters have been calculated using the EQ3/6 computer code. Estimates have also been made of the pH and Eh buffering capacity of the water/rock system of Yucca Mountain.

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Migration of Chlorine-36 and Tritium from an Underground Nuclear Test

et al. 1988

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This article describes a field experiment studying the migration in alluvium of radioactive elements away from an underground nuclear explosion at the Nevada Test Site in the United States. Nuclides detected in the pumped water are tritium and chlorine-36 -both at levels below the maximum permissible concentration for drinking water in controlled areas. The chlorine-36 elution curve precedes that of tritium and is due to an anion exclusion process. A conventional two-dimensional convection-diffusion equation does not fully describe the elution curves for tritium and chlorine-36; the tailing of the curves is longer than predicted. Successful modeling of this experiment will be important for validating codes and models to be used in the high-level nuclear waste program.

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Mineralogy-Petrology and Groundwater Geochemistry of Yucca Mountain Tuffs

1983

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Research at Yucca Mountain in southern Nevada (Fig. 1), is being supported by the US Department of Energy to evaluate this site as a possible high-level radioactive waste repository. Yucca Mountain is underlain by a thick sequence of ash-flow and bedded tuffs, with a few silicic lavas.Variations in mode of tuff emplacement and postemplacement alterations have given rise to pyroclastic rocks of quite variable character, ranging from nonwelded to densely welded, vitric to devitrified, and nonzeolitized to completely zeolitized. The proposed repository horizon is in the lower portion of the thick, densely welded Topopah Spring Member of the Paintbrush Tuff in the unsaturated zone. Within the Topopah Spring Member and in the rocks beneath the proposed repository horizon, there are significant variations in mineralogy [1]. Such changes in mineralogy include the localized occurrence of such potentially reactive phases as cristobalite,tridymite, smectite, and volcanic glass. The important sorptive minerals clinoptilolite and mordenite also occur in discrete horizons, and their distribution changes horizontally and vertically. We have undertaken a study of the mineralogy in Yucca Mountain as a function of depth and lateral position to predict the horizontal and vertical distribution of these important potentially reactive and sorptive minerals. This knowledge has aided in locating the repository horizon and will help to put bounds on mineralogic variability within the repository horizon. In addition, studies of the distribution of minerals in Yucca Mountain allow us to deduce the factors that have controlled mineral distributions and to predict mineral assemblages along transport pathways [1,2]. In addition, we are investigating the groundwater chemistry because it and mineralogy are used as input to codes for calculating the transport rate of waste elements from the repository to the accessible environment.

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Halides as Bridging Groups for Electron Transfer in the Systems Cr⁺⁺ + (NH₃)₅CrX⁺⁺

Ogard¹,

Taube²

1958

J. Am. Chem. Soc.

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Chemical composition of ground water and the locations of permeable zones in the Yucca Mountain area, Nevada

Benson¹,

Robison²,

Blankennagel³

et al. 1983

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A.E. Ogard

Groundwater chemistry along flow paths between a proposed repository site and the accessible environment

Migration of Chlorine-36 and Tritium from an Underground Nuclear Test

Mineralogy-Petrology and Groundwater Geochemistry of Yucca Mountain Tuffs

Halides as Bridging Groups for Electron Transfer in the Systems Cr⁺⁺ + (NH₃)₅CrX⁺⁺

Chemical composition of ground water and the locations of permeable zones in the Yucca Mountain area, Nevada

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About

A.E. Ogard

Groundwater chemistry along flow paths between a proposed repository site and the accessible environment

Migration of Chlorine-36 and Tritium from an Underground Nuclear Test

Mineralogy-Petrology and Groundwater Geochemistry of Yucca Mountain Tuffs

Halides as Bridging Groups for Electron Transfer in the Systems Cr++ + (NH3)5CrX++

Chemical composition of ground water and the locations of permeable zones in the Yucca Mountain area, Nevada

Contact Info

Product

Resources

About

Halides as Bridging Groups for Electron Transfer in the Systems Cr⁺⁺ + (NH₃)₅CrX⁺⁺