Emission Inventory of Volatile Organic Compounds and Ozone Formation Potential in Fujian

近年来，随着福建地区经济快速发展，城市化进程不断加快，环境与经济发展的矛盾日益突出，臭氧浓度逐渐攀升。挥发性有机物是臭氧的主要前体物，对臭氧的生成及大气污染有着不可忽视的影响。本研究建立了福建省挥发性有机物排放清单，分析了挥发性有机物的排放特征及时空分布特点，并计算了臭氧生成潜势，为该地区空气质量改善提供了重要的基础数据。 本研究以福建省为研究对象，综合利用各类统计资料、结合福建省本地调研情况等，主要采用排放因子法，选取具有代表性的活动水平数据和排放因子，开发了福建省包括9个城市在内的2015年挥发性有机物排放清单。在此基础上，结合ArcGIS技术，对VOCs排放清单进行区县空间分配，得到排...In recent years, with the rapid economic development and accelerated progress of urbanization, the contradiction between environment and economy is increasingly prominent. Frequent ozone concentration exceeding have caused the deterioration of air quality. As the main precursor of ozone, VOCs have a negligible impact on the generation of ozone and air pollution. For better understanding of the cha...学位：理学硕士院系专业：环境与生态学院_环境科学学号：3312014115170

Characteristics of inorganic ions and organic components in PM_(2.5) from biomass burning

为探讨生物质在明火和阴燃两种不同条件下PM_(2.5)及主要成分的排放差异,选取了7种具有代表性的生物质样品(小麦、水稻、马尾松叶、马尾松枝、杂; 草、玉米、棉花)进行了燃烧实验,并对PM_(2.5)样品中的7种主要水溶性离子(Na~+、NH_4~+; 、K~+、Ca~(2+)、Cl~-、NO_3~- 、SO_4~(2-))及有机碳(OC) 、元素碳(EC) 、水溶性有机碳(WSOC); 、有机酸和左旋葡聚糖(LG)等有机成分进行了分析.结果表明,明火和阴燃条件下PM_(2.5)的排放因子分别为2.82~ 7.74; mg·g~(-1)和3.24~ 22.56; mg·g~(-1),阴燃时的排放因子偏高,不同燃料类型也存在一定差异.燃烧排放PM_(2.5)中水溶性离子以Cl~-为最高,占总离子的比例为72; %~; 94%,且与NH_4~+存在显著正相关关系,水溶性离子整体表现为明火条件下的浓度显著高于阴燃条件下的浓度.受阴燃条件下氧气不足的影响,PM_(2; .5)中有机组分的浓度表现为阴燃高于明火,进而导致阴燃时PM_(2.5)的排放因子增加.水稻秸秆燃烧烟尘中3种来源特征比值(LG/PM_(2.5; )、LG/OC和LG/WSOC)仅为小麦和玉米秸秆燃烧排放相应比值均值的0.34、0.24和0.27倍,表明在不同农作物的收获季节采用上述特征比; 值进行生物质燃烧来源估算时,应区别对待.Seven kinds of biomass samples including masson pine needles and; branches,wheat,rice,grass,maize and cotton straw were burned under; flaming and smoldering conditions to investigate the emission factors of; PM_(2.5) and its associated major components including organic carbon; (OC), elemental carbon,water soluble ions,water soluble organ carbon; (WSOC),organic acids and levoglucosan (LG). The results showed that the; emission factors were in the range of 2.82 ~ 7.74 mg·g~(-1) and 3.24 ~; 22.56 mg·g~(-1) for PM_(2.5) from biomass burning in flaming and; smoldering conditions, respectively. The difference between the two; burning conditions varied in different kinds of biomass fuel. The; profiles of water soluble ions in PM_(2.5) were all dominated by; Cl~-,accounting for 72%~ 94% of the total water soluble ions.; Significant positive correlations were only observed between Cl~-and; NH_4~+. The concentrations of water soluble ions were generally higher; in flaming PM_(2.5) than those in smoldering PM_(2.5). The organic; components showed much higher levels in smoldering PM_(2.5) with respect; to those in flaming PM_(2.5) because of incomplete burning. The higher; emission factors of PM_(2.5) under smoldering conditions were mainly due; to the higher emission factors of organic species. Three source; characteristic ratios including LG/PM_(2.5),LG/OC and LG/WSOC in rice; straw burning PM_(2.5) were only 0.34,0.24 and 0.27 times of the mean; ratios in wheat and maize straw burning PM_(2.5),respectively.; Thus,different characteristic ratios are required to estimate biomass; burning contribution in different biomass burning seasons.国家自然科学基金; 国家重点研发计划; 福建省自然科学基金计划项