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These erosion control and vegetation establishment practices are regularly used in construction <br />projects and are referenced in the construction permit plans. Long-term impacts are minimized by <br />using these construction techniques. <br />5.1.6 Maintenance Procedures <br />Transmission lines and substations are designed to operate for decades and require only moderate <br />maintenance, particularly in the first few years of operation. <br />The estimated service life of a transmission line for accounting purposes is approximately 40 years. <br />However, practically speaking, transmission lines are seldom completely retired. Transmission <br />infrastructure has very few mechanical elements and is built to withstand weather extremes that are <br />normally encountered. With the exception of severe weather such as tornadoes and heavy ice <br />storms, transmission lines rarely fail. Transmission lines are automatically taken out of service by the <br />operation of protective relaying equipment when a fault is sensed on the system. Such interruptions <br />are usually only momentary. Scheduled maintenance outages are also infrequent. As a result, the <br />average annual availability of transmission infrastructure exceeds 90 percent. <br />The principal operating and maintenance cost for transmission facilities is the cost of inspections, <br />usually done monthly by air. Annual operating and maintenance costs for transmission lines in <br />Minnesota and the surrounding states vary. For transmission lines with voltages ranging from 69 kV <br />through 345 kV, experience shows that the annual maintenance cost is approximately $300 to $500 <br />per mile. Actual line -specific maintenance costs depend on the setting, the amount of vegetation <br />management necessary, storm damage occurrences, structure types, materials used, and the age of <br />the line. <br />Substations require a certain amount of maintenance to keep them functioning in accordance with <br />accepted operating parameters and the NESC and NERC requirements. Transformers, circuit <br />breakers, batteries, protective relays, and other equipment need to be serviced periodically in <br />accordance with the manufacturer's recommendation. The site itself must be kept free of vegetation <br />and drainage maintained. <br />5.2 Electric and Magnetic Fields <br />The term electromagnetic fields ("EMF") refer to electric and magnetic fields that are coupled <br />together, such as in high frequency radiating fields. For the lower frequencies associated with power <br />lines (referred to as "extremely low frequencies" ['ELF']), EMF should be separated into electric <br />fields ("EFs") and magnetic fields ("Ws"), measured in kilovolts per meter ("kV/m") and <br />milliGauss ("mG"), respectively. These fields are dependent on the voltage of a transmission line <br />(EFs) and current carried by a transmission line (MFs). The intensity of the electric field is <br />proportional to the voltage of the line, and the intensity of the magnetic field is proportional to the <br />current flow through the conductors. Transmission lines operate at a power frequency of 60 hertz <br />(cycles per second). <br />5.2.1 Electric Fields <br />There is no federal standard for transmission line electric fields. The Commission, however, has <br />imposed a maximum electric field limit of 8 kV/m measured at one meter above the ground in its <br />previously issued permits, including the recent order In the Matter of the Route Permit Application for a <br />Orono Project June 7, 2011 <br />MPUC Docket No. E002/TL-11-223 31 <br />