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REP35589
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Last modified
8/25/2016 12:12:56 AM
Creation date
11/27/2007 7:10:04 AM
Metadata
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Template:
DRMS Permit Index
Permit No
M1977215
IBM Index Class Name
Report
Doc Date
4/14/1997
Doc Name
EVALUATION OF UPPER & LOWER TAILINGS PONDS AT BULLDOG MINE
Media Type
D
Archive
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Bulldog Mine Tailings Ponds Evaluation <br />five of the eight samples having calculated degrees of saturation of approximately 1.0. A value <br />of 1.0 for the degree of saturation indicates fully saturated conditions with no air in the pore <br />spaces. These results aze consistent with observations made during test hole drilling, where very <br />moist tailings were typically encountered at depths greater than 5 to 10 feet. <br />Some of the tests resulted in calculated degrees of saturation of slightly greater than 1.0, which is <br />not physically possible. Calculated values of degrees of saturation slightly greater than one aze a <br />common occurrence for samples that aze at or neaz full saturation and aze usually the result of <br />slight uncertainties and errors in the laboratory test results. The most notable uncertainties aze <br />associated with the bulk density measurements, which aze based on the assumption that <br />specimens have a perfect right cylindrical geometry. The three samples with calculated degrees <br />of saturation slightly greater than 1.0 can be assumed to have degrees of saturation of unity for <br />all practical purposes. <br />4.3 Hydraulic Properties of Tailings <br />In order to quantify the vertical flow chazacteristics of the tailings, two relatively undisturbed <br />samples of tailings from the Lower Pond were tested in the laboratory for vertical hydraulic <br />conductivity using a flow pump permeameter. Prior to testing, the test specimens were <br />consolidated to stress states representative of their in-situ conditions. Both tests resulted in <br />consistent values of 4x10- cm/sec for the vertical hydraulic conductivity of the tailings. The <br />vertical hydraulic conductivity of the tailings was also estimated from the two laboratory <br />consolidation tests where time-deformation measurements were recorded. The hydraulic <br />conductivity of the two consolidation specimens were calculated for loading increments that best <br />represented the in-situ stress conditions. The sample from UP-1, 14 to 16 foot depth in the <br />Upper Pond yielded a vertical hydraulic conductivity of approximately 3x10~~ cm/sec, whereas <br />the sample from LP-3, 21.5 to 23.5 foot depth had a vertical conductivity of 4x10' cm/sec. <br />Thus, hydraulic conductivity values calculated from consolidation test results aze consistent with <br />the flow-pump permeameter test results. <br /> <br />Homertake ,Mining Comparry Shepherd ,Nil/er, Inc. <br />p:~, r.~~nldlJq.p~ 14 Apri! l!, l9flJ <br />
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