课题组基于DOAS技术在泰安市对NH3开展观测,探究了富氨环境下NHX气粒转化在雾霾污染中的作用,在Science of the Total Environment期刊发表了题为Role of gas-particle conversion of ammonia in haze pollution under ammonia-rich environment in Northern China and prospects of effective emission reduction的论文,2021级硕士生邹雪婷为第一作者。
NH3是形成二次无机气溶胶的重要前体物,在细颗粒的形成中起着关键作用。为了研究冬季NH3对华北平原地区雾霾形成的影响,利用SP-DOAS对泰安地区的NH3浓度进行高时间分辨率的观测。观测结果表明,在以硝酸盐为主的大气环境下,气溶胶液态水含量(ALWC)是影响雾霾加重过程中NHX气粒转化的关键因素,而NHX的气粒转化对SIAs的形成起着重要作用。重建分子组成进一步表明,NH4NO3在雾霾期间对PM2.5的增加中起主导作用。在富氨环境中,NO3−的形成更依赖HNO3的浓度,减少氮氧化物排放是缓解该地区硝酸盐污染的最有效途径。
原文链接:Xueting Zou, Shanshan Wang*, Jiaqi Liu, Jian Zhu, Sanbao Zhang, Ruibin Xue, Chuanqi Gu, Bin Zhou*. Role of gas-particle conversion of ammonia in haze pollution under ammonia-rich environment in Northern China and prospects of effective emission reduction. Science of the Total Environment, 934, 173277, 2024. DOI: https://doi.org/https://doi.org/10.1016/j.scitotenv.2024.173277.