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271.
针对当前液化天然气(LNG)点供站建设和现场管理没有标准规范,LNG点供站安全管理存在隐患的现状,通过对LNG点供站运营过程中的风险点进行辨识,提出针对性的风险预控措施和管理建议,促进LNG点供站的健康安全运行。 相似文献
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土壤生态毒性测试方法综述 总被引:1,自引:1,他引:0
土壤生态毒性测试在化学品管理和污染土壤评价等方面具有重要作用。传统的测试方法通常是利用生物个体、种群等水平上的存活、繁殖等测试终点来评价化学品或污染土壤对生态系统的影响。微宇宙等模拟生态系统和一些野外试验方法更接近生态系统的实际情况,但耗时更长、花费更高。与传统的测试方法相比,生物标志物敏感性高、响应速度快,有可能作为土壤污染的快速诊断工具。近年来,新技术的应用进一步促进了土壤生态毒理学的发展,如组学技术有助于理解有毒物的致毒机制,发现新的分子生物标志物。本文综述了目前土壤生态毒性测试的主要方法及其标准化和应用现状,同时对土壤生态毒性测试方法今后的研究方向及在我国环境管理中的应用提出展望。 相似文献
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以涂有CeO2-ZrO2固溶体的堇青石蜂窝状陶瓷为载体,用浸渍法制备堇青石蜂窝陶瓷型整体La0.8Sr0.2MnO3催化剂,测试了该催化剂催化燃烧各类VOCs的特性。研究表明,VOCs催化燃烧的难易程度为:含氯烃烷烃酸芳烃酮酯醇醛。La0.8Sr0.2MnO3催化剂对含氧有机化合物具有较好的催化活性,完全燃烧温度均在280℃之内。通过关联VOCs的理化性质,发现VOCs在La0.8Sr0.2MnO3催化剂上的反应活性与VOCs分子中最弱C—H键键能和VOCs分子极性密切联系。 相似文献
278.
Transfer characteristics of cobalt from soil to crops in the suburban areas of Fujian Province,southeast China 总被引:1,自引:0,他引:1
Dan Luo Haifeng Zheng Yanhui Chen Guo Wang Ding Fenghua 《Journal of environmental management》2010,91(11):2248-2253
The bioavailability of cobalt and its transfer from soil to vegetables and rice were investigated. Among 312 soils collected from vegetable and paddy fields in the suburban areas of some major cities of Fujian Province, southeast China, total soil Co ranged from 3.5 to 21.7 mg kg?1, indicating a slight accumulation compared with the background value of the province. DTPA extracted 0.1–8.5% of soil total Co. Total and DTPA-extractable Co correlated with soil pH, CEC, free Fe, total Mn, clay and silt content more significantly in paddy soils than in the soils from vegetable fields. The average Co concentrations in the edible parts of vegetables and rice were 15.4 μg kg?1 and 15.5 μg kg?1, respectively. The transfer factor (the ratio of plant Co to soil DTPA-extractable Co, TFDTPA) ranged from 0.003 to 0.126 with a median of 0.049. The TFDTPA decreased in the order of leafy vegetables > fruit vegetables > root vegetables > rice. The TFDTPA of all crops decreased with increasing DTPA-extractable Co. Increase in pH, CEC, organic matter, clay, silt, free iron and total Mn limited the soil-to-plant transfer of Co to varying degrees. The transfer of Co from the soils to the edible parts of the crops was lower than that of Zn, Cu and Cd, but higher than that of Pb in the same areas. The concentrations of Co in rice and vegetables in the study areas were considered to be safe for the local residents because of the slight anthropogenic input and the low transfer potential to the edible parts of Co from the soils. 相似文献
279.
It has recently become clear that an isomer specific view of technical 4-nonylphenol (NP) is absolutely necessary for the evaluation of the biological behavior of NP, raising additional questions concerning enantiomer specific effects. For the first time, in this study enantioselective HPLC was applied to enantiomeric separation of chiral NP isomers. A semipreparative separation of two NP isomers could be achieved. A GC-MS method has been developed for the simultaneous detection of three chiral NP isomers in water samples. Investigation of influent and effluent samples from a wastewater treatment plant in Germany indicated that enantioselective degradation could occur in the environment. In one examined influent, an enantiomer ratio of 1.7 for two different isomers was determined. 相似文献
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Haifeng Jia Xiangwen Wang Chaopu Ti Yanyun Zhai Richard Field Anthony N. Tafuri Huihua Cai Shaw L. Yu 《Environmental monitoring and assessment》2015,187(6):373
In order to assess the urban runoff control effectiveness of a low-impact development best management practice (LID-BMP) treatment train system, a field test of selected LID-BMPs was conducted in China. The LID-BMPs selected include three grassed swales, a buffer strip, a bioretention cell, two infiltration pits, and a constructed wetland. The test site is in a campus in southern China. The LID-BMPs, connected in a series, received stormwater runoff from four tennis courts with an area of 2808 m2 and eight basketball courts with an area of 4864 m2. Construction of the LID-BMPs was completed in early spring of 2012, and the sampling was conducted during May of 2012 to September of 2013. During the sampling effort, besides the performance evaluations of grassed swales and the bioretention cell in controlling runoff quantity as well as quality, the emphasis was also on determining the performance of the LID-BMP treatment train system. A total of 19 storm events were monitored, with nine producing no runoff and ten producing runoff. Data collected from the ten storm events were analyzed for estimating runoff quantity (peak flow rate and total runoff volume) and quality reduction by the LID-BMPs. The sum of loads (SOL) method was used for calculating the water quality performance of LID-BMPs. Results indicated that, for peak flow rate, a bioretention cell reduction of 50–84 % was obtained, and grassed swale reduction was 17–79 %, with a runoff volume reduction of 47–80 and 9–74 %, respectively. For water quality, the bioretention cell in general showed good removal for zinc (nearly 100 %), copper (69 %), NH3-N (ammonia nitrogen) (51 %), and total nitrogen (TN) (49 %); fair removal for chemical oxygen demand (COD) (18 %); and poor removal for total suspended solids (TSS) (?11 %) and total phosphorus (TP) (?21 %). And its performance effectiveness for pollutant removal increased in the second year after 1 year of stabilizing. When considering the aggregated effect of the LID-BMP treatment train system, it showed excellent removal for NH3-N (73 %), TN (74 %), and TP (95 %) and fair removal for COD (19 %) and TSS (35 %). The assessment results of the LID-BMP treatment train system provide valuable information on how to link the different types of LID-BMP facilities and maximize the integrated effectiveness on urban runoff control. 相似文献