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PERMFILE69231
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PERMFILE69231
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Entry Properties
Last modified
8/24/2016 11:14:44 PM
Creation date
11/20/2007 10:46:18 PM
Metadata
Fields
Template:
DRMS Permit Index
Permit No
C1981010
IBM Index Class Name
Permit File
Doc Date
9/21/2004
Doc Name
West Horse Gulch Hydrologic Model
Section_Exhibit Name
Appendix Q Section XXXV
Media Type
D
Archive
No
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<br />.. .TABliE 1 . -- .,.., <br />- ~ - INDEX ANDSTRENGTH:PROPERTIES OF:SOILS FOR PONDS -~ ~- - <br />_ <br />- --ATTERBERG -PARTICLE S1Z <br />E `EFFECTIVE- - __ :EFFECTIVE <br />_ <br />- - SAI~II'.LE ~ LIMITS _ <br />= DATA - ~ ` <br />` _ <br />FRICTION ANG <br />LE COHESION ~ - <br />- - -_ -_ (LL - PA .-(% passing Na 200) _ <br />_ _' - c .(ps - ~- <br />East Flume Borrow 29 - 11 50 29.7 72 <br />East Flume Ke wa 32 - 16 56 33.4 14.4 <br />West Horse Foundation 32 - 15 69 - <br />2. Slope Stability <br />The slope stability for the West Horse Embankment Dam was analyzed with the two- <br />dimensional slope stability program SLOPE/W ®(Version 2.41). The SLOPFJW model utilizes <br />the Bishop's Method to determine the factor of safety for a circular failure surface that is found <br />during a search routine for the critical surface. To address concerns regarding the stability of the <br />embankment dam after the pond was filled and the water level in the dam had reached a steady <br />state, the slope was analyzed with the water level at the spillway (5 feet above the tce of the <br />embankment). The water level through the dam under these conditions was estimated using <br />Casagrande's Tangent Method (see attached calculation sheet), which, with the available <br />information, can be used to conservatively estimate the height at which the line of steady-state <br />seepage exits the toe of the dam. Utilizing the above mentioned soils data and the estimated line <br />of seepage though the dam; the stability of the embankment was calculated with the groundwater <br />• level downstream from the embankment at the ground surface. The proposed embankment design <br />incorporating upstream slopes of 2H:1 V, downsVeam slopes of 3H:1V and a height from the <br />upstream toe to the crest of the dam of 8 feet was analyzed. <br />Soil strength parameters estimated from the information contained in the geotechnical testing <br />are shown in Table 2. <br />3. Results <br />To address the embankment stability, the failure surface was modeled in the material <br />underlying the embankment. Through modeling it was determined that the embankment has a <br />factor of safety 1.80 for the downsVeam slope. <br />The SLOPE/W stability analysis is attached. <br /> <br />
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