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101.
准确判断臭氧(O3)生成敏感性对O3污染成因分析和防控对策的制定至关重要.首次利用响应曲面方法设计最优试验方案,基于盒子模式模拟结果,快速量化O3对其前体物变化的响应.结果表明,CO对O3有正贡献,NOx和VOCs与O3呈现显著非线性关系,当φ(VOCs)与[φ(NOx)-13.75]比值大于4.17时,为NOx控制区,小于4.17时,为VOCs控制区;烯烃为影响O3生成的关键VOCs组分,当φ(烯烃)与[φ(NOx)-15]比值小于1.10且φ(烯烃)<35×10-9时,烯烃有利于O3的生成.响应曲面法在多因素和其交互作用对O3生成影响的研究中取得了良好效果,为高效判断O3敏感性提供了新的思路和方法. 相似文献
102.
利用2019年和2020年夏季沈阳市工业区大气挥发性有机物(VOCs)的观测数据,研究沈阳市夏季工业区大气VOCs的组成特征并初步判断其来源,并利用最大增量反应活性(MIR)和气溶胶生成系数(FAC)法分别估算该地大气VOCs的臭氧生成潜势(OFP)及二次有机气溶胶生成潜势(AFP).结果表明,观测期间沈阳市工业区ρ(总VOCs)平均值为41.66μg·m-3,烷烃、烯烃、芳香烃和乙炔分别占总VOCs浓度的48.50%、 14.08%、 15.37%和22.05%.浓度排名前10的物种累计占总VOCs浓度的69.25%,其中大部分为C2~C5的烷烃,还包括乙炔、乙烯和部分芳香烃.总VOCs整体上呈现出早晚浓度高、中午浓度低的日变化特征,峰值分别出现在06:00和22:00,11:00~16:00处于较低水平.由甲苯/苯(T/B)和异戊烷/正戊烷的比值判断工业区主要受机动车尾气排放、溶剂使用、燃烧源和LPG/NG的影响.工业区大气VOCs的总AFP为41.43×10-2μg·m-3,其中芳香烃的贡献最大;总OFP贡献值为1... 相似文献
103.
京津冀城市群冬季二次PM2.5的时空分布特征 总被引:1,自引:1,他引:0
二次组分是造成京津冀城市群冬季PM2.5污染的重要因素.采用CO示踪法,估算2017~2021年冬季京津冀城市群二次PM2.5浓度,并分析其时空分布特征,探讨区域二次PM2.5的影响因素.结果表明,2017~2021年冬季京津冀区域PM2.5浓度下降趋势明显,河北中南部一次PM2.5下降幅度最大,二次PM2.5浓度年际波动平稳,北京和天津二次PM2.5占比明显高于其他城市.随着污染程度加剧,一次PM2.5和二次PM2.5质量浓度均有不同程度的增加,二次PM2.5占比呈显著增大趋势.与直接测量结果相比,CO示踪法获得的结果偏低,与冬季CO浓度较高,一次PM2.5浓度高估有关,选取合适的一次气溶胶基准值是改进该方法,获取合理估算值的关键. 相似文献
104.
Liu Houfeng 《中国人口.资源与环境(英文版)》2006,4(3):51-57
Monitoring data from ozone(O3) automatic stations in three typical cities with different climatic areas in the southern and northern parts of eastern China are used to analyze temporal and spatial characteristics of ozone pollution at ground level. The results show that ozone pollution level has distinct regional differences and the concentration in the suburbs is higher than that in the urban areas. The seasonal variation of ozone concentration in different climatic areas is greatly affected by the variation of precipitation. Ozone concentration in Shenyang and Beijing , in the temperate zone, has one perennial peak concentration, occurring in early summer, May or June. Ozone concentration in Guangzhou, in sub-tropical zone, has two peak values year round. The highest values occur in October and the secondary high value in June. The ozone season in the south is longer than that in the north. The annual average daily peak value of ozone concentrations in different climates usually occur around 3 pm. The diurnal variation range of ozone concentration declines with the increase of latitude. Ozone concentration does not elevate with the increase of traffic flow. Ozone concentration in Guangzhou has a distinct reverse relation to CO and NOx. This complicated non-linearity indicates that the equilibrium of ozone photochemical reaction has regional differences. Exceeding the rate of Beijing's lh ozone concentration is higher than that of Guangzhou, whereas the average 8h ozone level is lower than that of Guangzhou, indicating that areas in low latitude are more easily affected by moderate ozone concentrations and longer exposure. Thus, China should work out standards for 8h ozone concentration. 相似文献
105.
Timothy B. Spruill 《Journal of the American Water Resources Association》1983,19(6):977-981
ABSTRACT: Data from 54 well in central and eastern Kansas developed in unconsolidated deposits of Quaternary age indicate that nitrate concentrations are inversely related to the depth of the well screen opening below the water level in the well casing because this relationship was found to exist in an area of Nebraska and in a large area of Kansas, the relationship is generally valid over a wide geo- graphical area. In addition, the data indicate that the incidence of nitrate concentrations exceeding 45 milligrams per liter and nitrate concentrations, in general, are significantly lower in water from wells with screens deeper than 25 feet below the water table in unconfined aquifers or where screens are placed in deep confined aquifers. No concentrations of nitrate greater than 45 milligrams per liter were in obseved wells where screens were deeper than 60 feet below the casing water level. These findings suggest that general placement of well screens as far below the water table as possible in unconfined unconsolidated aquifers in Kansas. and possibly other areas of the Midwest, may be an effective measure in preventing undesirable nitrate concentrations in ground water supplies. particularly in areas where nitrate is a problem. 相似文献
106.
The National Oceanic and Atmospheric Administration's (NOAA) National Status and Trends (NS&T) Programme has analyzed samples of surface sediment collected at almost 300 coastal and estuarine sites throughout the United States since 1984. the overall distributions for concentrations of each element are approximately lognormal allowing a definition of geometric means and of “high” concentrations as those exceeding the mean plus one standard deviation of the lognormal distribution. Those mean and “high” concentrations should be useful for comparing the NS&T data set and with other reports on sediment contamination. A world-wide data set, constructed from data in the literature, was summarized in an identical manner. It was found, after excluding locally extreme values, that the NS&T and world-wide data sets yielded very similar mean and “high” concentrations for Cu, Ni, Pb and Zn. Chromium was the sole element showing higher summary statistics in the NS&T data set, a result attributed to NS&T sampling in areas of naturally (not contaminated) elevated Cr content. It remains undetermined, however, why the world-wide data set, even with exclusion of “hot spots”, yielded higher means and “highs” for Cd, Hg, As, and Ag. 相似文献
107.
臭氧-生物活性炭组合工艺中最佳臭氧投加剂量的确定 总被引:10,自引:1,他引:9
在水处理过程中投加臭氧,可提高饮用水的可生物降解性.臭氧氧化后继的生物过滤,可以减少水中可生物降解有机物数量,提高饮用水的生物稳定性.试验表明,臭氧投加量2~8mg/L可使AOC-P17,AOC-NOX和BDOC分别增加20.9%~85.5%,42.1%~158.2%和21.4%~84.4%.臭氧投加量为3mg/L时,AOC和BDOC增加得最多,即3mg/L的臭氧投量为最佳投加剂量.生物活性炭滤柱(BAC)出水AOC浓度(乙酸碳)均低于50μg/L,在35.9~46.6μg/L之间,属于生物稳定性水质. 相似文献
108.
109.
臭氧活性炭工艺中卤乙酸生成潜能与相对分子质量分布关系的研究 总被引:4,自引:0,他引:4
通过臭氧生物活性炭和微曝气生物活性炭(O3/BAC和micro-aeration/BAC)2套工艺研究其对不同相对分子质量有机物去除特点和不同相对分子量有机物生成的卤乙酸及其去除特性.结果表明,O3/BAC工艺对相对分子质量区间>30×103的有机物去除率超过90%.O3/BAC与micro-aeration/BAC出水中,UV254值表示相对分子质量<103的有机物超过50%,相对分子量区间在10×103~30×103的有机物占20%~30%;在O3/BAC和微曝气/BAC工艺出水中,以相对分子质量<103的有机物生成的卤乙酸最多,生成DCAA、TCAA、DBAA分别为97.00、38.55、2.10μg/L和104.00、42.75和2.92μg/L;采用各处理单元不同分子量有机物与氯反应生成的DCAA、TCAA、DBAA和THAAs与相对应的UV254值进行线性拟合,相关系数分别为0.827、0.851 3、0.815 7和0.878.UV254与臭氧生物活性炭处理工艺出水中的卤乙酸生成潜能具有较好的线性关系. 相似文献
110.
Bettinetti R Croce V Galassi S Volta P 《Environmental science and pollution research international》2006,13(1):59-66
- DOI: http://dx.doi.org/10.1065/espr2006.01.010
Background, Aims and Scope Although pp'DDT usage was strongly limited or banned in most parts of the world during the last three or four decades, the
parent compound, its homologues and their metabolites still occur at levels which might pose a risk for many ecosystem components.
A case of DDT pollution of industrial origin was discovered in 1996 in Lake Maggiore, the second largest (212 km2) and deepest
(370 m) lake in Italy, causing concern for wildlife and human health. The extensive monitoring of many biotic and abiotic
compartments which followed from 1998 in order to assess the pollution level and its trend in time, provided a great availability
of data referring to DDT contamination of the different fish species of the lake. In this study, the recent contamination
levels in selected fish species were compared to those measured in 1998 to evaluate the temporal pollution trend of the lake
and its natural recovery, given that no remediation measures were carried out on the contaminated soils and sediments in this
time span. Moreover, a modelling approach to test the equilibrium condition between water and pelagic fish species was used.
Analytical results of pp'DDT and pp'DDE concentrations in lake water were used as input data in the bioenergetic model by
Connolly & Pedersen (1988) to calculate concentrations in two fish species and to compare the predicted and the measured contamination.
Methods Sampling and analytical determination of DDT homologues in lake water: Five water sampling campaigns were carried out from
May 2002 to February 2004 in three sampling sites of Lake Maggiore. Suspended and dissolved pollutants were determined separately.
Quantitative DDT homologue analyses were performed by HRGC coupled with ECD detection by the external standard method. Single
water extracts were put together in correspondence with the stratification zones of the water column inferred on the basis
of the temperature profile to improve analytical sensitivity. Selection of fish data: Concentrations of DDT and DDE in fishes
were selected from recent literature (CIPAIS 2003, 2004). Bioaccumulation model: The bioenergetic model proposed by Connolly
& Pedersen (1988) was used to assess the bioaccumulation of pp'DDT and pp'DDE of Alosa fallax (landlocked shad) and Coregonus
spp. (whitefish), selected among the different species as representative of a secondary consumer level.
Results and Discussion The average concentrations of pp'DDT and pp'DDE in water to be used as input data in the bioenergetic model were obtained
considering all the concentrations measured at the three sampling stations in the epylimnion where the fish species considered
in this study spend most of their life. The resulting values were 0.05 and 0.16 ng/L for pp'DDT and pp'DDE, respectively.
Average measured pp'DDT and pp'DDE concentrations in landlocked shad were 0.81 +/- 0.39 and 1.69 +/- 0.71 mg/kg lipids, respectively,
and were 0.29 +/- 0.12 and 1.06 +/- 0.41 mg/kg lipids for the whitefish. Calculated and measured values turned out to be
in quite good agreement for pp'DDT, while measured pp'DDE concentrations were higher than expected on the basis of the bioenergetic
model in both species. Probably metabolic transformations of pp'DDT accumulated in fish tissues in the past are responsible
for the observed differences between calculated and expected pp'DDE concentrations in fish.
Conclusions Pelagic fishes of Lake Maggiore seem to maintain the DDT accumulated during their life time and the most efficient mechanism
responsible for the fish population recoveries is probably their generation changes; for this reason, equilibrium models cannot
be used until negligible pp'DDT concentrations are reached in fish tissues.
Recommendations and Outlook The limit proposed for pp'DDT in water by the EU Directive 2000/60, which will come in force in 2008, is 0.2 ng/L, four times
higher than the average concentration measured in Lake Maggiore waters. Nevertheless, concentrations measured in Lake Maggiore
fish were very close and sometimes exceeded the Maximum residue limits (MRLs) settled by the Italian legislation for foods
(0.1 mg/kg w.w. for fish containing 5–20% lipid). It seems, therefore, that the 'environmental quality standard' of 0.2 ng/L
cannot guarantee the suitability of fish for human consumption. 相似文献