通过分析2013—2017年海口市风向频率、地面PM_(2.5)浓度及海口市所处北部湾地理位置,确定12月为北部湾对海口市最不利风向时间段.利用中尺度气象模式(WRF,Weather Research Forecast)驱动空气质量模型(CMAQ,Community Multi-scale Air Quality),设置一系列数值模拟情景,深入分析北部湾人为源对海口市PM_(2.5)浓度影响.结果表明:WRF/CMAQ能很好地再现北部湾气象场和PM_(2.5)浓度的时空分布.2013年12月,北部湾人为源对海口市PM_(2.5)平均贡献率约为45.4%,其中约有90%来源于海口市自身人为源,约有10%来源于广东广西片区,海南片区除海口外其余市县贡献可忽略不计.污染时段,北部湾和海口市自身贡献率均下降,平均贡献率分别为40%和36%,表明污染时段海口市PM_(2.5)主要源区不仅来自北部湾.通过分析后向轨迹,发现污染时段均会经过一个关键区——珠三角区域,表明珠三角区域很有可能也是造成2013年12月海口市PM_(2.5)污染的主要源区.清洁时段,北部湾和海口市自身贡献率均上升,平均贡献率分别为52%和48%,表明北部湾对海口市PM_(2.5)浓度影响在清洁时段更显著.因此,北部湾未来产业规划值得关注,因为这些产业很有可能使目前海口市清洁时段变为污染时段,导致空气质量下降. 相似文献
Environmental Science and Pollution Research - The development of electric vehicles (EVs) is not only a necessary path for China to move from a big country to a powerful country in automobile... 相似文献
Environmental Science and Pollution Research - The problem of heavy metal pollution in the environment is of increasing concern, especially in the agricultural environment. In this study, a method... 相似文献
This report describes a rapid, onsite method to analyze the dichlorvos pesticide in water. Dichlorvos is a broad-spectrum pesticide that has been used worldwide. As an organophosphorus pesticide, dichlorvos disrupts the nervous system by inhibiting the activity of acetyl cholinesterase. Traditional analysis of dichlorvos by chromatography is time-consuming and environmentally unfriendly. Therefore, rapid, on-site methods to analyze dichlorvos are needed. Here, we used for the first time Fourier transform near infrared spectroscopy combined with partial least square-discriminant analysis to determine the dichlorvos directly in water samples. Results were compared with traditional high-performance liquid chromatography data as reference. We found that over 9,000–8,333?cm?1, the new method had a good performance with a classification accuracy of 100?% and a correlation coefficient of 0.92 between measured and reference data. The new method can also be used as a “concentration sieve” by setting up different levels of boundary, a parameter of partial least square-discriminant analysis, thus allowing rapid on-site screening. 相似文献
The use of higher dosage and repeated applications of conventional pesticides have led to the rapid development of insect resistance to pesticide and adverse effects on human health and environment. Accordingly, researchers are prompted to identify an alternative entomotoxic agent for crop protection. Nanocides are being considered as alternatives to conventional insecticides because they are expected to lessen the application rate and reduce the chances of resistance development in pests. In this study, we evaluated the entomotoxic effects of nanosilica on larvae of Plutella xylostella, in a laboratory by using dust spray, larva dipping, leaf dipping, and solution spray methods. Dust treatment showed a more highly significant effect than the other three treatments. The mortality percentage increased up to 58% and 85% at 24 and 72 h after treatment, respectively, when nanosilica was applied at a rate of 1 mg cm?2. In all four bioassays, mortality rate increased with both increased time after nanosilica exposure and increased concentration. Light microscopy and scanning electron microscopy images showed that larval death was due to desiccation, body wall abrasion, and spiracle blockage. These results suggested that nanosilica can be an alternative to conventional pesticides if dust formulation would be properly used. 相似文献
The sorption by solid materials is one of the most important processes that affect the fate of hydrophobic organic pollutants
in aquatic systems. Current studies focus on the sorption of hydrophobic pollutants by single natural solid material, whereas
few studies compared the sorption behaviors of different solids. Furthermore, natural aquatic environment is a complex system
where hydrophobic pollutants coexist with many other pollutants, but only limited studies reported the effects of coexisting
components on the sorption. Here we studied the sorption of dichlorodiphenyltrichloroethanes (DDTs) by three common solids
in natural water, i.e., biofilms, suspended particles and sediments. The effects of typical coexisting heavy metals on the
sorption were also examined. The results show that the sorption is described by a dual-mode sorption model. Compared with
sediments, more DDTs were sorbed by biofilms and suspended particles. Coexisting Pb, Cd and Cu increased the sorption of DDTs
on sediments while decreasing the sorption on biofilms slightly, with little effect on the sorption on suspended particles.
The different sorption behaviors of the solids were mainly determined by the composition of the solids: more organics were
observed in biofilms and suspended particles. 相似文献
During the excavation of high gas mine, gas and dust often exist at the same time. In order to ensure that the gas concentration remains within a safe range and minimize the risk of workers’ pneumoconiosis, we simulated the interaction mechanism of airflow, gas, and dust, explored the pollution law of gas and dust, and obtained the optimal purification distance (Lp) by the CFD method. The reliability of the numerical simulation was verified by field measurements. Firstly, the properties of the gas and dust affected the structure of the airflow field. At the same time, the change in the airflow field affected the concentration distributions of the gas and dust. During the diffusion process, some high-risk regions in which the gas or dust concentrations exceeded 0.80% or 200 mg/m3, respectively, were discovered. Moreover, we have found that the airflow velocity in the top region of the tunnel and at the intersection corner between the cutting face and tunnel wall was the main factor affecting the purification effects. When Lp = 5–8 m, the gas concentration remained below 0.50%. When Lp = 6 m, the dust concentration reached a minimum of 287.5 mg/m3. Therefore, the optimal purification distance was determined to be 6 m; in which case, the gas and dust concentrations decreased by 32.84% and 47.02%, respectively.