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2012-10-01_REVISION - M1977306 (17)
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2012-10-01_REVISION - M1977306 (17)
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Last modified
6/15/2021 2:26:50 PM
Creation date
10/22/2012 7:51:44 AM
Metadata
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Template:
DRMS Permit Index
Permit No
M1977306
IBM Index Class Name
REVISION
Doc Date
10/1/2012
Doc Name
EPP Submittal- Ex. 6.5 to Material Safety Data
From
Cotter
To
DRMS
Type & Sequence
AM1
Media Type
D
Archive
No
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Evaluation of Potential Contaminant Migration for Uranium Mining <br />Operations at the JD -9 Mine <br />1.0 Introduction <br />1 <br />JD -9 Mine Report <br />Geoscience Services <br />The purpose of this report is to evaluate potential environmental impacts of <br />mining operations at the JD -9 mine located south of Monogram Mesa, Colorado. Based <br />on SPLP tests on waste -rock samples requested by the Colorado Division of Mines and <br />Geology (DMG), several constituents of concern were identified that exceed water <br />quality standards. As a result, the Colorado Division of Mines and Geology has <br />requested that a contaminant transport evaluation be conducted to consider the potential <br />impacts to groundwater resources from the ore and waste -rock piles. Specifically, DMG <br />requested calculations to determine if the potential contamination is minimized by the <br />effects of dilution and transport prior to reaching a receiving groundwater aquifer or a <br />receiving surface water body. <br />Geoscience Services has been retained by the Cotter Corporation to conduct an <br />analysis of the transport of potential constituents of concern from the uranium mining <br />operation to the groundwater and nearby surface water receptors in order to fulfill the <br />Colorado Division of Mines and Geology request. Groundwater flow and transport <br />modeling conducted at a similar site (SM -18 mine) will be used to evaluate the potential <br />for environmental impacts from constituents of concern present in the waste rock at the <br />JD -9 mine site. This is a reasonable and cost - effective approach since the geology and <br />potential constituents of concern are similar at all of the mining sites in the area. <br />Differences in the site geology will be identified and the impact on the evaluation study <br />noted. <br />To accomplish this analysis, a groundwater flow and contaminant transport model <br />was developed to predict the environmental impact of mining operations. The numerical <br />code PORFLOW was selected based on the code's ability to simulate multiphase flow <br />and transport, calculate the effects of sorption, and simulate the decay of radionuclides. <br />
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