Toro María Victoria, Cremades Lázaro V, Calbó Josep
Grupo de Investigaciones Ambientales, Universidad Pontificia Bolivariana, Spain.
Chemosphere. 2006 Oct;65(5):881-8. doi: 10.1016/j.chemosphere.2006.03.013. Epub 2006 May 2.
Relationship between volatile organic compounds (VOC) and nitrogen oxides (NOx) emissions and the chemical production of tropospheric ozone is studied through mathematical simulation. The study is applied to the Aburrá Valley, in the Colombian Andes, which is a practically unknown area from the point of view of ozone formation. The model used for this application is the European modelling of atmospheric constituents (EUMAC) zooming model (EZM) which consists of a mesoscale prognostic model (MEMO, mesoscale meteorological model) and a chemical reaction model (MUSE, multiscale for the atmospheric dispersion of reactive species), coupled to the chemical mechanism EMEP (European monitoring and evaluation program). The analysis is performed for a real episode that was characterized by high ozone production and that happened during the 23rd and 24th December, 1999 in Medellín (Colombia). From this real scenario, a sensitivity analysis has been carried out in order to assess the influence of VOC and NOx amounts on ozone production and to extract some conclusions for future ozone abatement policies in Andean regions. As far as ozone air quality is concerned, it is shown that in order to keep current levels the emphasis must be put to avoid increasing NOx emissions, or alternatively, to augment VOC emissions in order to have a high VOC/NOx ratio.
通过数学模拟研究了挥发性有机化合物(VOC)和氮氧化物(NOx)排放与对流层臭氧化学生产之间的关系。该研究应用于哥伦比亚安第斯山脉的阿布拉山谷,从臭氧形成的角度来看,这是一个几乎未知的地区。用于此应用的模型是欧洲大气成分建模(EUMAC)缩放模型(EZM),它由中尺度预报模型(MEMO,中尺度气象模型)和化学反应模型(MUSE,反应性物种大气扩散的多尺度模型)组成,并与化学机制EMEP(欧洲监测和评估计划)耦合。分析是针对1999年12月23日和24日在麦德林(哥伦比亚)发生的一次以高臭氧产生为特征的实际事件进行的。从这个实际情景出发,进行了敏感性分析,以评估VOC和NOx量对臭氧产生的影响,并为安第斯地区未来的臭氧减排政策得出一些结论。就臭氧空气质量而言,结果表明,为了保持当前水平,必须强调避免增加NOx排放,或者增加VOC排放以获得高VOC/NOx比率。
