A captive-air irradiation study of the response of nitric acid and peroxyacetyl nitrate to ozone control strategies in Los Angeles

Nelson A. Kelly
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引用次数: 4

Abstract

Outdoor smog chamber experiments were used to study the sensitivity of the yields of two important nitrogen-containing pollutants, nitric acid (HNO3) and peroxyacetyl nitrate (PAN) to changes in nonmethane hydrocarbon (HC) and nitrogen oxide (NOx) concentrations in Los Angeles. The experiments were conducted at two sites in the Los Angeles Basin using eight chambers filled with morning Los Angeles air on 33 days. At least one chamber was unchanged and served as a control, while the initial HC and/or NOx concentrations were changed by 25–50% in up to seven chambers to simulate O3 control strategies and to broaden the range of HC - NOx conditions studied. Empirical models that predict the maximum yields of HNO3 and PAN were used to determine the response of these pollutants to three possible ozone control strategies. All three strategies (reductions in HC, NOx or both HC and NOx) reduced PAN while only NOx reductions decreased HNO3. However, reducing NOx increased the HC reductions required to attain lower O3 levels. Thus, there is a conflict between the O3 and HNO3 control strategies.

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洛杉矶大气辐照对硝酸和过氧乙酰硝酸盐对臭氧控制策略的响应研究
采用室外雾霾室内实验,研究了两种重要含氮污染物硝酸(HNO3)和过氧乙酰硝酸盐(PAN)产率对洛杉矶地区非甲烷烃(HC)和氮氧化物(NOx)浓度变化的敏感性。实验在洛杉矶盆地的两个地点进行,使用8个充满洛杉矶早晨空气的房间,持续33天。至少有一个腔室保持不变并作为对照,而在多达七个腔室中,将初始HC和/或NOx浓度改变25-50%,以模拟O3控制策略,并扩大HC - NOx条件的研究范围。利用预测HNO3和PAN最大产率的经验模型,确定了这些污染物对三种可能的臭氧控制策略的响应。所有三种策略(减少HC、NOx或同时减少HC和NOx)都能减少PAN,而只有减少NOx才能减少HNO3。然而,减少NOx增加了达到较低O3水平所需的HC减少量。因此,在O3和HNO3控制策略之间存在冲突。
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