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2014-08-13_GENERAL DOCUMENTS - C1981018
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2014-08-13_GENERAL DOCUMENTS - C1981018
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Last modified
8/24/2016 5:46:41 PM
Creation date
8/14/2014 7:47:43 AM
Metadata
Fields
Template:
DRMS Permit Index
Permit No
C1981018
IBM Index Class Name
General Documents
Doc Date
8/13/2014
Doc Name
Proposed Decision & Findings (RN6)
From
DRMS
To
Blue Mountain Energy, Inc
Permit Index Doc Type
Findings
Email Name
ZTT
DIH
Media Type
D
Archive
No
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Group in the Williams Fork Formation. The Mesaverde Group consists of the Lower Iles <br />Formation and the Upper Williams Fork Formation, which are separated by the Trout Creek <br />Sandstone. The Williams Fork Formation is further divided into upper and lower members. The <br />Lower Williams Fork Member contains coal bearing seams "A" through "H." The "B" and "D" <br />seams will be recovered at the Deserado Mine. <br />The dip of the Mesaverde Group within the permit area is controlled by the asymmetric Red <br />Wash Syncline, which strikes northwest southeast. Dips vary from 7 degrees in the southern part <br />of the permit area, horizontal at the synclinal axis, to as much as 70 degrees on the north flank of <br />the syncline. The coal and sandstone beds outcrop along this steep northern flank. Structure and <br />local topography are the main factors that control ground water movement in the area. <br />The Williams Fork Formation is divided into three hydrologic units: The Sandstone Facies, <br />which underlies the "A" coal seam and is generally equivalent to the Trout Creek Sandstone and <br />the upper portion of the Iles Formation; the Siltstone and Coal Facies, which consists of the <br />interbedded coal, siltstone, and shale strata of the Lower Williams Fork Formation; and the upper <br />Sandstone Facies of the Upper Williams Fork Formation. <br />A fourth hydrologic unit is the alluvium of the White River and its tributaries. The maximum <br />thickness of the White River Alluvium near the permit area was found to be 37 feet. <br />Groundwater in the alluvium occurs in an unconfined condition. <br />No major usage of groundwater in or adjacent to the permit area has been defined by the <br />permittee. Due to the generally low yield and poor quality of aquifers in the region, high <br />groundwater usage would be unusual. Recharge of the bedrock aquifers occurs primarily at <br />higher elevations north of the permit area through infiltration of precipitation in outcrop areas. <br />Discharge is primarily through seeps where aquifers are erosionally exposed along the White <br />River. <br />The operator had originally developed an alluvial well field near the confluence of Scullion <br />Gulch and the White River to supply water for mine operations. In 1984, Kenney Reservoir was <br />completed above Rangely, Colorado. Kenney Reservoir impounds the White River through the <br />southern portion of the permit area, inundating much of the alluvial well field. Because the <br />alluvial surface is almost completely submerged by the reservoir, recharge to the alluvium is now <br />instantaneous. Due to inundation of the well field by the reservoir, and due to high salinity of the <br />alluvial well water, the operator now pumps water directly from the White River into an adjacent <br />lagoon, and from there, water is pumped to the mine's raw water storage tank. Only one alluvial <br />well, Qal -5, located at the mouth of Scullion Gulch, remains in use as a monitoring well. <br />The Red Wash Syncline and associated major fracture zones located along the Red Wash, <br />Scullion Gulch and the White River control movement of the Mesaverde groundwater. <br />Groundwater in the northwest part of the permit area moves down dip to the Red Wash Syncline. <br />Within the central and southern portion of the permit area, groundwater flows south to the White <br />River. <br />Surface water drainage patterns in the area are incised and dendritic. Scullion Gulch and Red <br />M <br />
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