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' 5.6 Air Quality <br /> Air quality emissions directly related to high-voltage transmission lines are negligible amounts of <br /> ' ozone and oxides of nitrogen caused by the corona effect. The other potential air quality issues are <br /> associated with construction activities,such as fugitive dust and exhaust emissions from <br /> construction equipment. <br /> ' Ozone and Nitrogen Oxides <br /> Corona discharge is energy loss that physically creates very small amounts of sound,radio noise, <br /> heat,and chemical reactions of the air near a conductor,and is a phenomenon associated with all <br /> transmission lines. Under certain conditions,the localized electric field near an energized conductor <br /> can become strong enough to produce a tiny electric discharge that can ionize air close to the <br /> ' conductors. Several factors contribute to corona discharge,including conductor voltage, shape and <br /> diameter,and surface irregularities that can affect a conductor's electrical surface gradient such as <br /> scratches,nicks,dust,or water drops. In the case of air quality,this partial discharge of electrical <br /> ' energy can produce very tiny amounts of ozone and nitrogen oxide with ozone being the primary <br /> oxidant. <br /> ' Ozone also forms naturally in the Earth's lower atmosphere from lightning discharges and from <br /> reactions between solar ultraviolet radiation and air pollutants such as hydrocarbons from auto <br /> emissions. Typical rural ambient levels are around 10 to 30 parts per billion (ppb) at night with <br /> peaks of 100 ppb and higher(EPRI, 1982). In urban areas,concentrations greater than 100 ppb are <br /> common. <br /> ' The natural production rate of ozone is directly proportional to temperature and sunlight and <br /> inversely proportional to humidity. Therefore,humidity,the same factor that increases corona <br /> discharges from transmission lines,inhibits the production of ozone. Ozone is a very reactive form <br /> of oxygen and combines readily with other elements and compounds in the atmosphere. Because of <br /> its high reactivity,ozone is relatively short-lived. The state and federal government both have <br /> regulations regarding permissible concentrations of ozone and oxides of nitrogen: Minnesota sets <br /> an ozone limit of 0.08 parts per million (ppm) as the highest eight hour average (Minnesota Rule, <br /> part 7009.0800),and the federal limit is 0.075 ppm as the fourth-highest eight hour daily maximum <br /> average (40 CFR,Part 50). <br /> ' Calculations according to the BPA Corona and Field Effects Program Version 3 for a standard <br /> single-circuit 115 kV project predicted a maximum concentration of 0.006 ppm near the conductor <br /> and 0.002 ppm at one meter above ground during foul weather or worst case conditions with rain at <br /> ' one inch per hour. During a mist(rain at 0.01 inch per hour) the maximum concentrations <br /> decreased to 0.0002 ppm near the conductor and 0.0001 ppm at one meter above ground level. <br /> (United States Department of Energy,BPA)For both cases,the ozone levels are below federal <br /> ' standards. Studies designed to monitor the production of ozone under transmission lines have been <br /> unable to detect any increase attributable to the transmission line facility. <br /> ' Construction/Fugitive Dust <br /> There would be limited emissions from vehicles and other construction equipment and fugitive dust <br /> from right-of-way clearing during construction of the Project. Temporary air quality impacts are <br /> ' expected to occur during this phase of activity. The magnitude of emissions is influenced heavily by <br /> weather conditions and the specific construction activity taking place. Exhaust emissions from <br /> primarily diesel equipment would vary according to the phase of construction but would be minimal <br /> Environmental Assessment <br /> PUC Docket E002/TL-11-223 Page 39 <br />