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81.
乌鲁木齐市TSP分布特征及影响因素分析 总被引:1,自引:0,他引:1
利用大流量采样器采集了2009年乌鲁木齐市TSP样品,通过对样品和数据的分析处理,揭示了乌鲁木齐市TSP基本特征及影响因素:(1)市北郊、中心城区和南郊山区的TSP质量浓度年均值变化较大,卫星站为0.483 8 mg.m^-3,高于年轮实验室(0.453 6 mg.m^-3)和雷达站(0.227 6 mg.m^-3),均高于国家年均浓度的二级标准(0.200 0 mg.m^-3)。各区域的TSP有很强的区域性分布特征,地形及能源消费状况是其主要影响因素。(2)雷达站、卫星站和年轮实验室季节平均浓度冬季最高,夏季最低,白杨沟夏季则最高,秋季最低。(3)市区TSP冬半年的月均浓度维持较高水平,受人为影响较小的白杨沟站TSP月均浓度变化很小;采样日TSP质量浓度与当日的气象条件和污染源排放情况有密切联系。(4)TSP质量浓度高于其他北方城市,远高于沿海城市,春季多风沙、冬季燃煤取暖和稳定的大气环境,是造成TSP质量浓度较高的主要因素。 相似文献
82.
Ebru Kavak Akpinar S. Akpinar Hakan F. Oztop 《International Journal of Green Energy》2013,10(4):407-421
In the present study, air pollutant concentrations have been analyzed statistically with meteorological factors in the city of Elazig, which is located in the east Anatolia region of Turkey, for the months of September, October, November, December, January, February, March, and April during the years 2003 and 2004. SPSS code was used for statistical analyses. The relationship between monitored air pollutant concentrations, such as SO2 and the total suspended particles (TSP) data, and meteorological factors such as wind speed, temperature, relative humidity and pressure was investigated. According to the results of linear and non-linear regression analysis, it was found that there is a moderate and weak level of relation between the air pollutant concentrations and the meteorological factors in Elazig. The correlation between the previous day's SO2, TSP concentrations and actual concentrations of these pollutants on that day was investigated and the coefficient of determination R was found to be 0.80 and 0.76, respectively. The statistical models of SO2 and TSP, including all of the meteorological parameters, gave an R of 0.50 and 0.40, respectively. Further, in order to develop this model, the previous day's SO2 and TSP concentrations were added to the equations. The new model for SO2 and TSP was improved considerably with R = 0.85 and 0.80, respectively. 相似文献
83.
在沙尘暴应急监测方法研究中,通过对总悬浮颗粒物采样仪器及各种采样参数的研究确定和降尘采样器的研制,制定出沙尘暴应急监测方法。 相似文献
84.
广州市大气TSP浓度变化及其与气象因子的关系 总被引:1,自引:0,他引:1
利用实地监测大气TSP浓度和局地气象数据,研究了2005年至2006年广州市不同功能区大气TSP浓度变化及其与气象因子的关系。结果表明,工业区大气TSP月平均浓度0.273mg/m3最高,显著高于交通繁忙区的0.207mg/m3;极显著高于商业区的0.180mg/m3、社区的0.155mg/m3和对照郊区的0.142mg/m3。研究显示,广州市大气TSP污染仍然比较严重。广州市大气TSP浓度与降雨呈现负相关性,与温度呈极显著的负相关性,与相对湿度呈显著的负相关性,与风速呈负相关性,与风向的相关性不明显。各功能区大气TSP浓度与局地气象因子也存在类似的规律。 相似文献
85.
用浓硝酸和高氯酸混酸体系在超声波作用下消解滤膜,加入稳定剂琼脂,用超声波震荡15min制成悬浮液,用火焰原子吸收光谱法测定TSP中的锌、铅和铁的含量,并以传统浓HNO3-H2O2湿法消解-原子吸收光谱法的测定结果为参考对测定值进行t检验,结果表明:RSD≤3.27%(n=6),两种方法的相对误差<±0.85%,且两种方法无显著性差异,说明悬浮液进样法的测定结果准确、可靠。 相似文献
86.
Evaluation of ambient air quality in Guangzhou, China 总被引:5,自引:0,他引:5
On the basis of the reported air quality index (API) and air pollutant monitoring data provided by the Guangzhou Environment Monitoring Stations over the last twenty-five years, the characteristics of air quality, prominent pollutants, and variation of the average annual concentrations of SOE, NOE, total suspended particulate (TSP), fine particulates (PM10), CO and dustfall in Guangzhou City were analyzed. Results showed that TSP was the prominent pollutant in the ambient air environment of Guangzhou City. Of the prominent pollutants, TSP accounted for nearly 62%, SOE 12.3%, and NOx 6.4%, respectively. The average API of Guangzhou over 6 years was higher than that of Beijing, Tianjin, Nanjing, Hangzhou, Suzhou and Shanghai, and lower than that of Shenzhen, Zhuhai and Shantou. Concentrations of air pollutants have shown a downward trend in recent years, but they are generally worse than ambient air quality standards for USA, Hong Kong and EU. SOE and NOx pollution were still serious, impling that waste gas pollution from all kinds of vehicles had become a significant problem for environmental protection in Guangzhou. The possible causes of worsening air quality were also discussed in this paper. 相似文献
87.
Distribution of PBDEs in air particles from an electronic waste recycling site compared with Guangzhou and Hong Kong, South China 总被引:4,自引:0,他引:4
Air samples of total suspended particles (TSP, particles less than 30-60 microm), and particles with aerodynamic diameter smaller than 2.5 microm (PM(2.5)) were collected simultaneously at Guiyu (an electronic waste recycling site), three urban sites in Hong Kong and two urban sites in Guangzhou, South China from 16 August to 17 September 2004. Twenty-two PBDE congeners (BDE-3, -7, -15, -17, -28, -49, -71, -47, -66, -77, -100, -119, -99, -85, -126, -154, -153, -138, -156, -184, -183, -191) in TSP and PM(2.5) were measured. The results showed that the overall average concentrations of TSP and PM(2.5) collected at Guiyu were 124 and 62.1 microg m(-3), respectively. The monthly concentrations of the sum of 22 BDE congeners contained in TSP and PM(2.5) at Guiyu were 21.5 and 16.6 ng m(-3), with 74.5 and 84.3%, contributed by nine congeners (BDE-28, -47, -66, -100, -99, -154, -153, -183 and -191 respectively). This pattern was similar to Tsuen Wan site of Hong Kong. Two urban sites of Guangzhou had the same congener pattern, but were different from Yuen Long and Hok Tsui sites of Hong Kong. The results also showed that the amount of mono to penta brominated congeners, which are more toxic, accounted for 79.4-95.6% of Sigma(22)PBDEs from all sites. All congeners tested in Guiyu were up to 58-691 times higher than the other urban sites and more than 100 times higher than other studies reported elsewhere. The higher concentration in the air was due to heating or opening burning of electronic waste since PBDEs are formed when plastics containing brominated flame retardants are heated. 相似文献
88.
89.
除夕夜燃放烟花爆竹对城市环境的影响 总被引:3,自引:0,他引:3
基于5年的监测数据,文章分析了除夕夜燃放烟花爆竹对环境产生的恶劣影响。等效声级高达95.8—110.8dB(A),超过标准55.8—70.8dB(A),瞬时最大声级高达125.0dB(A);TSP、SO2和NOx的浓度高达23.76—39.80mg/m3、1.341—5.602mg/m3和0.493—1.140mg/m3,分别超过标准22.8一38.8倍、1.7一10.2倍和2.3一6.6倍,因此建议在城市区域禁止其燃放. 相似文献
90.
From September 2011 to February 2012, ambient air particulate and particulate-bound mercury [Hg(p)] concentrations were measured, together with dry deposition using a cold vapor atomic fluorescence spectrometry (CVAFS) analyser, at two characteristic sampling sites in central Taiwan. Results from the sampling site at Westin Park indicated that the lowest particulate dry deposition and lowest average particulate concentrations in total suspended particles (TSP) occurred in September (29.70±7.47 μ g m?2×min) and February (34.38±13.60 ng m?3), respectively. Moreover, results from the Gung-Ming junior high school (airport) site, showed that the highest average particulate dry deposition and average highest particulate concentrations in TSP occurred in February (156.76±30.36 μ g m?2×min) and January (125.49±9.51 ng m?3), respectively, during the winter. The Dragon Steel Plant and Han-Shian Aerospace Industrial Development Corporation were both nearby. These factors led to the high Hg(p) concentrations at Taichung Airport (TA) compared with Westin Park. Local large suspended particulates from heavy traffic were the main reason for the high average Hg(p) deposition at Westin Park compared with TA in this study. 相似文献