Kimberly Baker scite author profile

Kimberly Baker

4Publications

4Citation Statements Received

10Citation Statements Given

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Case Western Reserve University

Publications

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Recovery of Depleted Uranium Fragments from Soil

Farr¹,

Alecksen²,

Heronimus³

et al. 2010

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A "proof of concept" was conducted to determine the effectiveness of a survey method for cost-effective recovery of depleted uranium (DU) fragments from contaminated soil piles at Sandia National Laboratories. First, DU fragments ranging from less than a gram up to 48 g were covered by various thicknesses of soil and used for detector efficiency measurements. The efficiencies were measured for three different sodium iodide detectors: a 5.1-cm by 5.1-cm (2-inch by 2-inch) detector, a 7.6-cm by 7.6-cm (3-inch by 3-inch) detector, and a Field Instrument for the Detection of Low Energy Radiation (FIDLER) detector. The FIDLER detector was found to be superior to the other detectors in each measurement. Next, multiple 7.6-cm (3-inch) layers of soil, taken from the contaminated piles, were applied to a clean pad of soil. Each layer was scanned by an array of eight FIDLER detectors pulled by a tractor. The array, moving 10.2 to 12.7 cm s(-1) (4 to 5 inches per second), automatically recorded radiation count data along with associated detector coordinates at 3-s intervals. The DU fragments were located and identified with a handheld system consisting of a FIDLER detector and a positioning system and then removed. After DU removal, the affected areas were re-scanned and a new lift of contaminated soil was applied. The detection capability of the system as a function of DU fragment mass and burial depth was modeled and determined to be sufficient to ensure that the dose-based site concentration goals would be met. Finally, confirmation soil samples were taken from random locations and from decontaminated soil areas. All samples had concentrations of U that met the goal of 400-500 pCi g(-1).

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Hydraulic Performance of a Residential Stormwater Infiltration Gallery

Jennings

Baker

2016

J. Environ. Eng.

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Sampling errors associated with soil composites used to estimate mean Ra-226 concentrations at an UMTRA remedial-action site

Gilbert¹,

Baker²,

Nelson³

et al. 1987

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Worldwide Surface-Soil Polychlorinated Biphenyl Regulatory Guidance Values

Jennings

Baker

2017

J. Environ. Eng.

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Kimberly Baker

Recovery of Depleted Uranium Fragments from Soil

Hydraulic Performance of a Residential Stormwater Infiltration Gallery

Sampling errors associated with soil composites used to estimate mean Ra-226 concentrations at an UMTRA remedial-action site

Worldwide Surface-Soil Polychlorinated Biphenyl Regulatory Guidance Values

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