Laserfiche WebLink
from the 6-Main North substation and will be insulated and heated. The Polo Citrus tanks will be enclosed by a <br />containment system capable of holding in excess of 5,000 gallons. <br />The bulk material component includes construction of a pad, installation of a bulk material hopper, and drilling of a <br />nominal 13-inch borehole from the surface to the underground workings from the shaft pad above the 6-North Main <br />entries. Drilling of the borehole was covered by the TROS-48 submittal. Details for the concrete pad and bulk <br />storage and transi.'er facilities will be submitted for review and approval as a Minor Revision, prior to installation. <br />The water component includes construction of a reinforced concrete pad and footers, installation of a water tank and <br />associated pumping installation, and drilling of a nominal 13-inch borehole from the surface to the underground <br />workings from the shaft pad above the 6-North Main entries. Drilling of the borehole was covered by the TROS-48 <br />submittal. TCC proposes to construct a steel water tank 85 feet in diameter and 24 feet high designed to hold one <br />million gallons. 'The tank will rest on a reinforced concrete foundation consisting of aspread-footer, stem wall, and <br />slab floor supported by concrete pilings. Preparation of the tank foundation area will involve grading, compaction, <br />and excavation for the support pilings and spread-footer. Following site preparation, the reinforced concrete pilings <br />and footers will be formed, and poured, followed by the reinforced concrete pad and stem wall. The steel tank will <br />be fabricated in sections which will be placed and anchored on the stem wall. A water-tight liner system will <br />complete the tank: installation. <br />A buried 8-inch IHDPE line will connect the tank to the water borehole for both filling from and discharge to the <br />mine water system. Pumps (both underground and at the surface) and control sensors and valuing will allow for <br />controlled flow iii either direction in the supply system. Tank fill sensors and a monitored overflow drain will be <br />installed in the tank to prevent overfilling. The overflow drain line will be installed in the same trench as the water <br />supply and return line and will drain back to the mine-water handling system. A sma118 x 8 foot pumphouse, will be <br />constructed next to the tank on a concrete foundation to house pumps and valves. Power and/or control <br />communications will be laid in conduit above the waterline connecting the tank and the borehole. <br />The locations for the seven boreholes for project utility components are shown on Maps EX16E-M1 and M2. As <br />shown on Map 23, additional entries will be driven to the south of the 6 North Main entries to connect with the <br />ventilation shaft. These entries will be needed to maximize the efficiency of the ventilation system. The entries will <br />be driven in the same manner as is used in TCC's development work, i.e. continuous miners and shuttle cars. <br />Following commissioning of the shaft, the shaft pad site and access road will be cleaned-up and surface areas graded <br />and dressed. <br />In addition to the direct piped connection to the mine-water system at 6MN, the Million-Gallon Tank will be <br />temporarily connf;cted directly to a pipeline running from the 10-Right Mine Dewatering Pipeline. Water from the <br />10-Right Mine DE;watering Well, which pumps accumulated mine inflows from a sump in the sealed Eastern Mining <br />District, is pumped to the surface by a 320 HP high-capacity submersible pump, at a rate of approximately 700 gpm. <br />The pump discharge is currently transferred by a series of surface and underground pipelines to the Area 1 Pit in the <br />TCC Mine Facilities Area for use in either coal preparation operations or for storage and subsequent use as a back-up <br />source for the operational mine water system. <br />As part of the 6MN Facilities project, TCC will establish a new pipeline running approximately 7,750 feet from the <br />10-Right Dewateiing pipeline to the 6MN Storage Reservoir. The pipeline will be constructed of 10-inch HDPE <br />pipe, buried to a depth of approximately six feet, with one sub-grade crossing (bored under) of Fish Creek. Details <br />on the Fish Creel: pipeline crossing are presented in Exhibit 490, 6MN Mine Water Storage Reservoir -Design <br />Drawings. Pipeline construction will involve placement of sediment control materials (straw wattles or silt fence) <br />downslope of the disturbance at any location where the pipeline corridor is within 50 feet of a drainage or stream <br />buffer zone; removal and windrowing of available soil material (total soil material volume for the pipeline project is <br />estimated at 11,1_i0 cy) to one side of the 50 foot pipeline construction corridor; excavation of the pipeline trench <br />using atrack-hoe, with temporary placement of the excavated material on the opposite side of the trench; placement, <br />connection, and bedding of the pipe; backfilling and compaction of the excavated material around the pipe; re- <br />spreading of the soil material; and re-seeding using the standard rangeland seed mixture. Because the soil materials <br />• will be replaced :immediately after pipeline placement, as construction advances, stabilization measures are not <br />necessary. <br />TR07-62 2.05 - 45.6f ~,~~®~ F~~ !~ ~ ~~~~ 02/04/08 <br />