深圳大气中亚硝酸和甲醛的四季污染特征  被引量：1

作　　者：姜震 唐梦雪 邵宇铭 曹礼明 何礼 廖松地 朱曼妮 黄晓锋 何凌燕 JIANG Zhen;TANG Meng-xue;SHAO Yu-ming;CAO Li-ming;HE Li;LIAO Song-di;ZHU Man-ni;HUANG Xiao-feng;HE Ling-yan(Laboratory of Atmospheric Observation Supersite,School of Environment and Energy,Peking University Shenzhen Graduate School,Shenzhen 518055,China;Institute for Environmental and Climate Research,Jinan University,Guangzhou 511443,China)

机构地区：[1]北京大学深圳研究生院环境与能源学院,大气观测超级站实验室,广东深圳518055 [2]暨南大学环境与气候研究院,广东广州511443

出　　处：《中国环境科学》2024年第6期2961-2969,共9页China Environmental Science

基　　金：深圳市科技计划项目(JCYJ20200109110625819)。

摘　　要：亚硝酸(HONO)和甲醛(HCHO)光解是大气中羟基(OH)自由基的重要来源,强烈影响臭氧生成.为了探究大气中HONO和HCHO的污染特征,于2022年1月~2023年9月在中国深圳市开展了对HONO和HCHO的长期观测.结果表明,观测期间深圳市四季HONO平均浓度呈现出冬季(0.71×10^(-9))>秋季(0.64×10^(-9))>春季(0.59×10^(-9))>夏季(0.49×10^(-9)),HCHO平均浓度呈现出夏季(3.79×10^(-9))>秋季(2.74×10^(-9))>冬季(2.44×10^(-9))>春季(2.13×10^(-9)).HONO四季日变化均呈现明显的昼夜变化趋势,存在白天谷值和夜间峰值,还会在早晚高峰时期受到交通排放源的影响,HCHO则呈现较明显的日间单峰型的日变化特征,光化学生成特征突出.对OH自由基贡献的分析表明,HONO光解是深圳市OH自由基产率的主要贡献者(60%),并且对清晨的光化学反应活性有明显的促进作用,特别是在冬季;而HCHO则在夏季和午间发挥了相对更重要的作用.因此,通过有效控制HONO和HCHO可以降低大气氧化性,从而有助于控制O3污染.The photolysis of nitrous acid(HONO)and formaldehyde(HCHO)is a critical source of hydroxyl(OH)radicals in the atmosphere,significantly impacting ozone generation.In order to explore the pollution characteristics of HONO and HCHO,long-term observations were conducted in Shenzhen,China,from January 2022 to September 2023.The results showed that the average concentration of HONO in Shenzhen during the observation period was highest in winter(0.71×10^(-9)),followed by autumn(0.64×10^(-9)),spring(0.59×10^(-9))and summer(0.49×10^(-9))and the average concentration of HCHO was highest in summer(3.79×10^(-9)),followed by autumn(2.74×10^(-9)),winter(2.44×10^(-9))and spring(2.13×10^(-9)).The diurnal variation of HONO showed a similar trend throughout the four seasons,with daytime valleys and nighttime peaks.It was also affected by traffic emissions during the morning and evening rush hours.HCHO showed a more obvious diurnal unimodal characteristics and prominent photochemical generation characteristics.OH radical budget analysis showed that HONO photolysis was the main contributor(60%)to OH radical production in Shenzhen,and it had a significant promoting effect on the early morning photochemical reaction,particularly in winter,while HCHO played a more important role in summer and at noon.Therefore,by effectively controlling HONO and HCHO,atmospheric oxidation capacity can be reduced,which helps to control O3 pollution.

关 键 词：亚硝酸(HONO) 甲醛(HCHO) OH自由基 四季变化 污染特征 

分 类 号：X51[环境科学与工程—环境工程]