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Mine backfill material. The backfill overburden material at NHN Mine will be placed in the mine <br />pit areas using 3 techniques: 1) cast blasting, 2) end dumping of trucks from the spoil bench and <br />3) dozing. Following top soil stripping, the top bench or free dig zone (weathered zone, suitable <br />material) is loaded into trucks using a hydraulic excavator and hauled around the pit and placed <br />on the top of unsuitable material (unweathered overburden). After removal of the top bench (free <br />dig), the unweathered material is cast blasted (a majority of this material requires re -handling) <br />across the pit to the bottom of the backfill area. Dozers and the shovel and trucks remove the <br />remaining overburden and clean off the top of coal. This backfilling technique greatly increases <br />the permeability of the backfill material in comparison to the original overburden. Due to truck <br />dumping from the spoil bench, large rock will settle near the bottom of the pit and provides <br />permeable channels for groundwater flow. As an example, the hydraulic conductivity (K) of the <br />backfill, as measured in monitor hole GW -N27, is 40 ft/day, which is far greater than the K value <br />measurement made in the overburden at GW -N9 (see New Horizon 1 Area Permit) of 2.1 ft/day. <br />The old Peabody Nucla Mine site (New Horizon 1 Area) has experienced continued seasonal <br />irrigation and runoff return flow infiltration from the 2nd Park Lateral since the final reclamation <br />(1St Qrt. 1992). Water infiltrating from this irrigation and precipitation have percolated and <br />moved through the bedrock zones and then drained into and through the backfill and saturated it <br />until water discharges at the low point of the base of the coal which is at Spoil Spring #1, (see <br />Map 2.04.7-1 for location). Flow from this spring fluctuates in response to the use of irrigation <br />from a low of about 17 gpm to a high of about 52 gpm with an average annual flow of around <br />27gpm (or about 44 acre-ft/yr). This flow represents the bedrock zones discharging and draining <br />through the backfill. The NHN Mine will be analogous to the old Nucla Mine with the <br />exception that unlike the "old" mine (not irrigated) portions of NHN Mine backfill will be <br />irrigated. Irrigation of the surface could begin as early as Spring 2015. Once irrigation resumes, <br />surface irrigation water will infiltrate into the backfill and then drain toward the southwest along <br />the floor of coal and issue as a spring in the same vicinity as existing Spring #1. As a matter of <br />clarification, the HDPE pipeline will be moved to the approximate location of the 2nd Park <br />Lateral after mining, backfilling and replacement of top soil has progressed far enough north. <br />This is expected to require about 3 to 4 years after mining begins. The HDPE pipeline will be <br />retained to prevent the irrigation water from draining into the very permeable pit backfill. This <br />will also prevent the direct loss of irrigation water along the course (sides and bottom) of 2nd park <br />Lateral ditch as occurs now. The HDPE pipeline will allow for sprinkler irrigation which is much <br />more efficient method of irrigating than is flood irrigation and will further help limit the loss of <br />water to the backfill by infiltration. <br />The amount of irrigation water that will drain through the backfill is estimated by first <br />considering how much water will be used for irrigation. The Garvey parcel (about 37 acres) <br />north of the 2nd Park Lateral will be irrigated with 27 shares of CCC ditch water, (see Map <br />2.04.10-1). The Meehan parcel (about 38 acres) may be irrigated with about 20 shares of CCC <br />Section 2.05.6(3) Page 17 Sept. 2015 (TR -11) <br />