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Table 1: Percent and Type of Right -of -Way Followed <br />3.7 Conductors <br />High-voltage transmission line circuits generally consist of three phases, each at the end of a separate <br />insulator, and physically supported by structures or poles. A phase consists of one or more <br />conductors (single, double, or bundled). A typical conductor is a cable consisting of aluminum wires <br />stranded around a core of steel wires. Shield wires are strung above the phases to prevent damage <br />from potential lightning strikes. The shield wire may also include a fiber optic cable that allows for <br />substation protection equipment to communicate with other substation terminals on the line. <br />The phases for this project would be constructed with three single steel supported aluminum <br />conductors (ACSS) which each consist of a single conductor comprised of seven steel core strands <br />surrounded by 26 outer aluminum strands. The separate conductors are 795,000 circular mils or <br />approximately 1.092 to 1.139 inches in diameter. The ground to conductor height depends on <br />overall topography and man-made obstacles and will meet or exceed the minimum clearance <br />requirements of the National Electric Safety Code (NESC). Two 3/8th inch diameter extra high <br />strength steel, seven strand shield wires will be installed to protect from lightning strike. Ultimately, <br />the transmission line would be three-phase, 60 hertz (Hz), alternating current line. <br />3.8 Structures <br />Xcel Energy proposes to use a combination of three different structure types (Table 2). All of the <br />proposed structures would be single pole structures constructed of galvanized or weathering steel <br />with heights of between 70 and 115 feet, depending upon the structure type and location (Xcel <br />Energy, June 7, 2011, and Xcel Energy, personal communication, October 13, 2011). All structures <br />are anticipated to be self-supporting; Xcel Energy does not anticipate use of structures requiring guy <br />wires (Xcel Energy, personal communication, November 4, 2011). Examples of the structure <br />proposed structure types are shown in Figure 2. <br />Environmental Assessment <br />PUC Docket E002/TL-11-223 Page 10 <br />Existing Ri ht-of-Wa Type and Miles Followed <br />Route <br />BNSF RR <br />U.S. <br />New/Cross Country <br />Total Length <br />Highway 12 <br />Proposed <br />0.34 miles, <br />N/A <br />0.25 miles (0.16 miles, 866 feet <br />0.59 miles <br />Route <br />57 percent <br />on Xcel Energy Property) <br />Baker Park <br />N/A <br />0.25 miles <br />0.16 miles (all on Xcel Property) <br />0.41 miles <br />Reserve <br />Alternative <br />3.7 Conductors <br />High-voltage transmission line circuits generally consist of three phases, each at the end of a separate <br />insulator, and physically supported by structures or poles. A phase consists of one or more <br />conductors (single, double, or bundled). A typical conductor is a cable consisting of aluminum wires <br />stranded around a core of steel wires. Shield wires are strung above the phases to prevent damage <br />from potential lightning strikes. The shield wire may also include a fiber optic cable that allows for <br />substation protection equipment to communicate with other substation terminals on the line. <br />The phases for this project would be constructed with three single steel supported aluminum <br />conductors (ACSS) which each consist of a single conductor comprised of seven steel core strands <br />surrounded by 26 outer aluminum strands. The separate conductors are 795,000 circular mils or <br />approximately 1.092 to 1.139 inches in diameter. The ground to conductor height depends on <br />overall topography and man-made obstacles and will meet or exceed the minimum clearance <br />requirements of the National Electric Safety Code (NESC). Two 3/8th inch diameter extra high <br />strength steel, seven strand shield wires will be installed to protect from lightning strike. Ultimately, <br />the transmission line would be three-phase, 60 hertz (Hz), alternating current line. <br />3.8 Structures <br />Xcel Energy proposes to use a combination of three different structure types (Table 2). All of the <br />proposed structures would be single pole structures constructed of galvanized or weathering steel <br />with heights of between 70 and 115 feet, depending upon the structure type and location (Xcel <br />Energy, June 7, 2011, and Xcel Energy, personal communication, October 13, 2011). All structures <br />are anticipated to be self-supporting; Xcel Energy does not anticipate use of structures requiring guy <br />wires (Xcel Energy, personal communication, November 4, 2011). Examples of the structure <br />proposed structure types are shown in Figure 2. <br />Environmental Assessment <br />PUC Docket E002/TL-11-223 Page 10 <br />