Role of anthropogenic NOx and VOC as ozone precursors: A case study from the SOS Nashville/Middle Tennessee Ozone Study

Abstract

Using data collected on July 11, 1995, from the Tennessee Valley Authority (TVA) instrumented Bell 205 helicopter during the 1995 SOS Nashville/Middle Tennessee Ozone Study, we examine the relative roles of NO_x and volatile organic compound (VOC) emissions on ozone photochemical production in the Nashville area. On this day, instruments onboard the helicopter separately sampled air from within a plume emanating from a nearby coal‐fired power plant and air from the Nashville urban plume. Using SO₂ concentrations and latitude to discriminate between the plumes, we compare the effects on O₃ production of only adding NO_x to the background air (i.e., the power plant plume) to that of adding both NO_x and VOC (i.e., the urban plume). Our analysis indicates that NO_x was the prime anthropogenic precursor causing the generation of O₃ during the experiment, with anthropogenic VOC perhaps playing a secondary but significant role. The addition of VOC emissions from the urban area had no appreciable effect on peak O₃ concentrations, clearly demonstrating that anthropogenic NO_x emissions by themselves can produce elevated O₃ concentrations in the Nashville area. Anthropogenic VOC emissions, however, may have enhanced the ozone production efficiencies and the rate at which O₃ reached its peak values. While not conclusive, the data also suggested that the highest O₃ concentrations in the Nashville area on July 11, 1995, appeared within embedded plumes that combined the effects of both urban and power plant precursor emissions.