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排序方式: 共有73条查询结果,搜索用时 23 毫秒
11.
Lina Vitali Fabio Monforti Roberto Bellasio Roberto Bianconi Valentina Sachero Sonia Mosca Gabriele Zanini 《Atmospheric environment (Oxford, England : 1994)》2006,40(40):8020-8033
In this paper the inert version of a Lagrangian particle model named photochemical Lagrangian particle model (PLPM) is described and validated. PLPM implements four density reconstruction algorithms based on the kernel density estimator. All these methods are fully grid-free but they differ each other in considering local or global features of the particles distribution, in treating the Cartesian directions separately or together and in being based on receptors or particles positions in space. Each kernel has been shown to have both advantages and disadvantages, but the overall good performances of the model when compared with the well known Copenhagen and Kincaid data sets are very encouraging in view of its extension to fully chemically active simulations, currently under development. 相似文献
12.
This study examines the oxidation of reduced sulfur compounds (RSCs) in urban ambient air. The photochemical conversions of RSC (such as DMS, CS2, H2S, DMDS, and CH3SH) to a further oxidized form (e.g., SO2, MSA, and H2SO4) were assessed using a photochemical box model. For our model simulation of RSC oxidation, measurements were taken at an urban monitoring station in Seoul, Korea (37.6° N, 127° E) during three separate time periods (e.g., Sept. 17–18, Oct. 23, and Oct. 27–28, 2003). The results indicate that DMS and H2S were the dominant RSCs with concentrations of 370 ± 140 and 110 ± 60 pptv, respectively. The photochemical conversion of DMDS to SO2 was found to occur more efficiently than other RSCs. The overall results of our study suggest that photochemical conversion of RSCs accounted for less than 15% of the observed SO2 during the measurement period. The SO2 production from DMS oxidation (mainly by the reaction with OH) was found to be affected primarily by the abstraction channel due to high NOx levels during the experimental conditions. 相似文献
13.
Alvim-Ferraz MC Sousa SI Pereira MC Martins FG 《Environmental pollution (Barking, Essex : 1987)》2006,140(3):516-524
The main purpose of this study was to evaluate the contribution of anthropogenic pollutants to the increase of tropospheric ozone levels in the Oporto Metropolitan Area (Portugal) since the 19th century. The study was based on pre-industrial and recent data series, the results being analyzed according to the atmospheric chemistry. The treatment of ozone and meteorological data was performed by classical statistics and by time-series analysis. It was concluded that in the 19th century the ozone present in the troposphere was not of photochemical origin, being possible to consider the respective concentrations as reference values. For recent data a cycle of 8h for ozone concentrations could be related to traffic. Compared to the 19th century, the current concentrations were 147% higher (252% higher in May) due to the increased photochemical production associated with the increased anthropogenic emissions. 相似文献
14.
Volatile organic compounds (VOCs) are a kind of important precursors for ozone photochemical formation. In this study, VOCs were measured from November 5th, 2013 to January 6th, 2014 at the Second Jinshan Industrial Area, Shanghai, China. The results showed that the measured VOCs were dominated by alkanes (41.8%), followed by aromatics (20.1%), alkenes (17.9%), and halo-hydrocarbons (12.5%). The daily trend of the VOC concentration showed a bimodal feature due to the rush-hour traffic in the morning and at nightfall. Based on the VOC concentration, a receptor model of Positive Matrix Factorization (PMF) coupled with the information related to VOC sources was applied to identify the major VOC emissions. The result showed five major VOC sources: solvent use and industrial processes were responsible for about 30% of the ambient VOCs, followed by rubber chemical industrial emissions (23%), refinery and petrochemical industrial emissions (21%), fuel evaporations (13%) and vehicular emissions (13%). The contribution of generalized industrial emissions was about 74% and significantly higher than that made by vehicle exhaust. Using a propylene-equivalent method, alkenes displayed the highest concentration, followed by aromatics and alkanes. Based on a maximum incremental reactivity (MIR) method, the average hourly ozone formation potential (OFP) of VOCs is 220.49?ppbv. The most significant source for ozone chemical formation was identified to be rubber chemical industrial emissions, following one by vehicular emission. The data shown herein may provide useful information to develop effective VOC pollution control strategies in industrialized area. 相似文献
15.
Ci Zhang Xiaohui Lu Jinghao Zhai Hong Chen Xin Yang Qi Zhang Qianbiao Zhao Qingyan Fu Fei Sh Jing Jin 《环境科学学报(英文版)》2018,30(10):118-132
To investigate formation mechanisms of secondary organic carbon(SOC) in Eastern China,measurements were conducted in an urban site in Shanghai in the summer of 2015. A period of high O_3 concentrations(daily peak 120 ppb) was observed, during which daily maximum SOC concentrations exceeding 9.0 μg/(C·m~3). Diurnal variations of SOC concentration and SOC/organic carbon(OC) ratio exhibited both daytime and nighttime peaks. The SOC concentrations correlated well with O_x(= O_3+ NO_2) and relative humidity in the daytime and nighttime, respectively, suggesting that secondary organic aerosol formation in Shanghai is driven by both photochemical production and aqueous phase reactions. Single particle mass spectrometry was used to examine the formation pathways of SOC. Along with the daytime increase of SOC, the number fraction of elemental carbon(EC) particles coated with OC quickly increased from 38.1% to 61.9% in the size range of 250–2000 nm, which was likely due to gas-to-particle partitioning of photochemically generated semi-volatile organic compounds onto EC particles. In the nighttime, particles rich in OC components were highly hygroscopic, and number fraction of these particles correlated well with relative humidity and SOC/OC nocturnal peaks. Meanwhile, as an aqueous-phase SOC tracer, particles that contained oxalate-Fe(III) complex also peaked at night. These observations suggested that aqueous-phase processes had an important contribution to the SOC nighttime formation. The influence of aerosol acidity on SOC formation was studied by both bulk and single particle level measurements, suggesting that the aqueous-phase formation of SOC was enhanced by particle acidity. 相似文献
16.
The question to what extent primary and secondary air pollutants are relevant to atmospheric pollution and their effects on
human health and the quality of the environment can be answered in a straight-forward manner: atmospheric processes, including
oxidation procedures, particle formation and equilibria, determine the fate of primary emissions and, in most cases, the secondary
products of these processes are the more important ones concerning their effects on human health and the quality of the environment.
The formation of secondary products represents the critical property determining the establishment of certain air standards,
rather than the actually emitted substance, although there are notable exceptions. In this paper, a review concerning transformation
of primary pollutants as studied in the atmosphere of Athens is used to enlighten matters that may need further attention
by the responsible authorities and stakeholders for the control and reduction of atmospheric pollution. 相似文献
17.
大气环境中OH自由基测定 总被引:10,自引:0,他引:10
采用自旋捕集技术和电子自旋共振法结合测定大气环境中OH自由基,首先用自旋捕集剂将OH自由基捕集,生成比较稳定的自然旋加合物,,然后带回实验室处理测定,该法为开展大气光化学研究提供了一种采样方便,利于实测的方法,据3个采样点的实测结果表明,相对误差约为35%,比文献所示结果略大。 相似文献
18.
Shijie Yu Shasha Yin Ruiqin Zhang Lingling Wang Fangcheng Su Yixiang Zhang Jian Yang 《环境科学学报(英文版)》2020,32(4):29-40
To investigate the characteristics of ground level ozone(O_3) for Henan Province,the ambient air quality monitoring data of 2015 and 2016 were analyzed.The result showed that the 8 h-max-O_3 concentrations displayed a distinct seasonality,where the maximum and minimum values,averaging 140.41,54.19 μg/m~3,occurred in summer and winter,respectively.There is a significant correlation between meteorological factors and O_3 concentration.The Voronoi neighborhood averaging analysis indic ated that O_3,temperature,and ultraviolet radiation in Henan province were decreased from northwest to southeast,while relative humidity and precipitation displayed the opposite trend.Besides meteorological factors,the chemical processes play an essential role in ozone formation.Reactions of NO,NO_2 and O_3 form a closed system,and the partitioning point of the OX-component(O_3+NO_2) was at 40 and 80 μg/m~3 for nitrogen oxide(NO_x) in winter and summer,respectively,with NO_2 dominating at higher NO_x pollution and O_3 being the m ajor component at lower levels.The relationship between oxidant(OX=O_3+NO_2)and NOx concentrations were evaluated to understand the regional and local contribution of OX.It showed that high regional contribution occurred in the spring,whereas the highest local contribution lead to the summer peak of O_3 observed in Zhengzhou.This present study reveals important environment impacts from the photochemical process and the meteorological conditions in the region with better understanding on the O_3 characterization. 相似文献
19.
20.
Modelling photochemical oxidant formation, transport, deposition and exposure of terrestrial ecosystems 总被引:1,自引:0,他引:1
Fowler D Cape JN Coyle M Smith RI Hjellbrekke AG Simpson D Derwent RG Johnson CE 《Environmental pollution (Barking, Essex : 1987)》1999,100(1-3):43-55
The chemical processes responsible for production of photochemical oxidants within the troposphere have been the subject of laboratory and field study throughout the last three decades. During the same period, models to simulate the atmospheric chemistry, transport and deposition of ozone (O(3)) from individual urban sources and from regions have been developed. The models differ greatly in the complexity of chemical schemes, in the underlying meteorology and in spatial and temporal resolution. Input information from land use, spatial and temporally disaggregated emission inventories and meteorology have all improved considerably in recent years and are not fully implemented in current models. The development of control strategies in both North America and Europe to close the gaps between current exceedances of environmental limits, guide values, critical levels or loads and full compliance with these limits provides the focus for policy makers and the support agencies for the research. The models represent the only method of testing a range of control options in advance of implementation. This paper describes currently applied models of photochemical oxidant production and transport at global and regional scales and their ability to simulate individual episodes as well as photochemical oxidant climatology. The success of current models in quantifying the exposure of terrestrial surfaces and the population to potentially damaging O(3) concentrations (and dose) is examined. The analysis shows the degree to which the underlying processes and their application within the models limit the quality of the model products. 相似文献