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1.
利用高效液相色谱-质谱/质谱法,同时测定饮用水中灭草松和2,4-D,水样经0.45μm微孔滤膜过滤后直接上机,经高效液相色谱分离后,采用质谱/质谱法测定。结果表明,灭草松和2,4-D分别在0.25~8.00μg/L和1.00~30.0μg/L范围内线性良好,相关系数分别为0.9987和0.9980,检出限为0.002μg/L和0.004μg/L,相对标准偏差(RSD)分别为7.5%~8.0%和2.9%~4.8%,加标回收率分别在73.6%~90.4%和90.3%~103.0%之间。完全满足饮用水中灭草松和2,4-D的测定。 相似文献
2.
陕南石煤储量大、分布广,开采和利用历史久远,因富含Se等微量元素而备受关注。为了研究陕南石煤中的元素对其分布区水中元素含量和富集程度的影响程度和影响机理,共采集并分析了岚皋县北部佐龙镇晚前寒武纪—早古生代石煤出露区和开采区的天然水样35个。研究结果表明:石煤分布区的水质大部分较好,参照国家生活饮用水标准(GB 5749—2006)和世界卫生组织饮用水卫生标准(WHO)可知适于饮用的水样占总水样的62.86%。其中以Se含量高为特征,有11个水样中的Se达到中国饮用天然矿泉水标准(GB8537—2018)规定的含量标准(10~50μg/L)。水样pH值为6.72~8.34,呈近中性或弱碱性;所有样品均为淡水,溶解性总固体平均值为39.22 mg/L;水化学类型主要以Ca-HCO3和Ca·Mg-HCO3为主;水化学成分主要受岩石风化控制,水中Se主要来源于石煤风化以及水-石煤相互作用导致的元素溶出,富硒石煤是当地水中Se元素的主要来源。 相似文献
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4.
超高效液相色谱法直接快速测定环境水样中硝基苯和苯胺 总被引:2,自引:1,他引:1
建立了超高效液相色谱直接快速测定环境水样中硝基苯和苯胺的分析方法。取900μL水样与100μL乙腈混匀,用微孔滤膜(0.2μm,有机系)过滤。采用1.7μm小颗粒填料的BEH phenyl柱,以乙腈/醋酸铵溶液为流动相,硝基苯和苯胺分别用紫外和荧光检测器检测,分析时间仅1.1 min。硝基苯和苯胺的线性范围分别是0.485~4850μg/L和0.495~1978μg/L,方法检出限分别是0.194μg/L和0.099μg/L,相关系数均在0.995以上。硝基苯9.70μg/L、194μg/L、1940μg/L三个浓度水平回收率在98.3%~101%,相对标准偏差在1.11%~2.03%。苯胺9.89μg/L、198μg/L、1978μg/L三个浓度水平回收率在98.6%~104%,相对标准偏差在0.75%~5.85%。与传统液相分析方法相比,本方法线性范围更宽,灵敏度更高;直接进样简化了前处理环节,减少采样体积和有机试剂的使用;分析效率高,适用于地下水、地表水等多种水质样品中痕量到常量范围的硝基苯和苯胺快速测定。 相似文献
5.
Fenton氧化膜-生物反应器出水中丙烯腈的实验研究 总被引:4,自引:0,他引:4
采用膜-生物反应器和Fenton氧化组合工艺对丙烯腈废水进行处理。从GC/MS测量结果来看,膜-生物反应器出水中主要物质为2,6双(二甲基-乙基)-4-酚、苯二甲酸和硝基苯二甲酸,均为生物难降解有机物,使出水不能达标。后续Fenton氧化工艺处理膜生物反应器出水,可以使COD含量等指标达到所要求的排放标准。经过膜-生物处理与Fenton法结合的优化工艺,COD去除率达到80%~88%,去除率达到98%,出水水质可达排放标准。Fenton氧化工艺的最佳工艺条件为:pH值为3.4,硫酸亚铁的投加量为700mg/L,双氧水的投加量为600mg/L。 相似文献
6.
等离子体质谱法测定天然水中痕量元素 总被引:3,自引:3,他引:3
本文利用ICP-MS分析技术检出限低,可同时测定多元素,以及溶液进样等特点,建立了天然水中多种痕量元素分析的有效方法,研究了整个测定质量范围内的背景、干扰及其克服方法,讨论了水中Na、Mg、Ca等元素产生的基体效应对被测元素的影响。对含盐量较低的天然水样,可直接测定的痕量元素达50余种,测定限为0.x—xμg/L。高盐水样如海水、卤水等的测定,本文选择共沉淀法,以Fe(OH)_3为捕集剂,使被测元素与大量的碱金属、碱土金属基体分离。分离后可测40种痕量元素,测定限为0.0x—0.xμg/L。 相似文献
7.
物理及生物技术在密云水库富营养化防治中的应用 总被引:5,自引:0,他引:5
为防治密云水库富营养化问题,应用部分物理和生物技术进行现场试验。吸附性材料净水试验后,试验区内水中氮的浓度和磷的浓度比对照区都有所下降,这将对藻类生长所需的营养物质量起到一定的控制作用。水葫芦净化水体试验说明,试验区内水体的总磷和总氮浓度皆低于对照水体的,这将控制藻类生长所需的营养物质量,即控制藻类的生长速度。机械除藻试验后,水中的叶绿素含量比除藻前下降60%~100%。表底层水体交换试验后,试验区内表、中层水体的温度有所下降,温度降低将抑制表、中层水体中藻细胞的繁殖速率,对水华的发生将起到一定的抑制作用。 相似文献
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顶空气相色谱法测定北京市地下水中的氯代烃 总被引:11,自引:0,他引:11
以国家标准方法和美国环保局(EPA)方法为基础,建立用自动顶空进样器对饮用水中的氯代烃进行测定的方法,探讨了影响实验空白的因素,所拟方法的检出限为:三氯甲烷0.096μg/L、四氯化碳0.034μg/L,三氯乙烯0.049μg/L,四氯乙烯0.033μg/L。方法回收率控制在82%-106%,其相对标准偏差(RSD,n=7)小于23%,符合国际有机污染物分析的标准,并用此方法对北京市地表水、地下水进行了测定。 相似文献
9.
为查明有机质微生物降解过程对地下水系统中碘迁移富集的影响,以大同盆地为研究区,对区内22组地下水样品进行了水化学和生物标志物研究。水化学分析结果表明,地下水碘质量浓度为5~1 212μg/L,其中,56.52%的地下水样品中碘质量浓度超过饮用水标准限定值150μg/L。地下水样品生物标志物分析结果显示,可提取饱和烃中存在大量"未分辨组分(UCM)";CPI_1和CPI_2分别为0.38~1.03和0.27~1.19;低相对分子质量正构烷烃无明显奇偶优势。上述生物标志物特征表明,含水层中有机质经历了强烈的微生物降解。有机质微生物降解产生的HCO_3~-通过竞争吸附,导致沉积物中吸附态碘的解吸附并在地下水中富集。此外,有机质的微生物降解有利于迁移能力强的低相对分子质量有机质或有机胶体的形成,该类有机物通过吸附或螯合作用进一步促进碘在地下水中的富集。 相似文献
10.
闭合超声循环吹扫针捕集动态提取-气相色谱法测定地下水中的4种有机磷农药 总被引:1,自引:1,他引:0
基于针捕集适于免溶剂提取气态介质样品的特点,通过蠕动泵将针捕集与水样组成闭合循环吹扫系统,提高目标物的水样/顶空亨利系数,建立了针捕集闭合循环提取耦合气相色谱快速分析地下水中4种半挥发性有机磷农药(敌敌畏、甲拌磷、甲基对硫磷、马拉硫磷)的方法,该方法集采样、提取、净化、浓缩、色谱进样于一体。确定了针捕集提取水样最佳条件为:采样流速11.11 m L/min,水样提取温度40℃,在此条件下获得浓度均为1 mg/L的4种有机磷农药的针捕集吸附穿透体积,其中甲基对硫磷最大为600 m L。以5μg/L、50μg/L和200μg/L三个浓度水平的加标平均回收率为62.3%~103.0%,除敌敌畏低浓度水平的RSD为26.1%外,其余组分的RSD7.7%;方法检出限为0.016~0.157μg/L,接近或优于现行国标及相关研究结果。 相似文献
11.
A. M. Mahdy E. A. Elkhatib N. O. Fathi 《International Journal of Environmental Science and Technology》2007,4(4):489-496
Drinking water treatment residuals (alum) are waste products of water purification that have potential for environmental remediation as a soil amendment and a potential plant growth medium. In this study, the influence of added Drinking water treatment residuals on the extractability and availability of phosphorus to plants; determination of the agronomic rate of alum to different agricultural soils and evaluation of the alum as ameliorating material for soil conditions and plant growth were investigated. In all studied soils, increasing drinking water treatment residuals rate up to 30 g/kg significantly increased dry matter yield. Application of 10, 20 and 30 g/kg alum significantly increased plant P concentrations in the plant materials (shoots and roots) taken from clay, sandy and calcareous soils. Further increase in alum application rate has resulted in negative significant impact on plants P concentration, especially in clay and calcareous soils, but in sandy soils the increase in phosphorusconcentration extended to 40 g/kg alum rate. Application of alum at rates up to 30 g/kg significantly increased available phosphorus concentrations of the three studied soils. However, application of alum at a rate of 40 g/kg to clay and calcareous soils significantly decreased available phosphorus concentrations. Combined analyses of all soils and alum rates studied clearly indicated significant relationship between available phosphorus concentration and phosphorus uptake (r = 0.87, P < 0.001). Based on our experiment results, the rate of 30 g/kg is considered the best application rate of alum because of its positive effects on plant dry matter. Our study clearly demonstrates that alum has potential as a soil amendment to increase plant growth; however, more research is needed to determine beneficial and / or detrimental aspects of this practice under field conditions. 相似文献
12.
Matthew Dey Keith Williams Richard Coulton 《Journal of Geochemical Exploration》2009,100(2-3):160-162
Arsenic contaminated waters are not uncommon; indeed from naturally occurring contaminated waters through to those that are a direct consequence of human activities such as mining, all are affecting the quality of water resources worldwide. The ever increasing demands on natural water resources mean that the effective control of this toxic contaminant is paramount and this is reflected in the ever increasing global legislation.There are currently three mechanisms by which arsenic is commercially treated in effluents. These are physical separation processes such as reverse osmosis, precipitation/adsorption processes, some of which are bacterially assisted, and a whole variety of ion exchange processes, again with some bacterial enhancement. The choice of treatment is not only driven by cost but by the chemistry of the water and the water quality standard to be met.In this study a very high arsenic enriched groundwater, containing in excess of 25,000 µg/L arsenic, was treated by a typical treatment method through a continuously operated pilot plant. In the treatment, iron III salts were added to the influent in order to form precipitates with the arsenic and to form an adsorptive surface that would assist with treatment of the enriched water. This addition of iron III salts for the removal of arsenic is common practice in the water treatment industry as the resulting iron III arsenates are highly stable.However, results from the pilot plant show that the process was further enhanced by the addition of small amounts of hydrogen peroxide. Hydrogen peroxide is a powerful oxidising reagent and assists in ensuring the complete conversion of any arsenic III to arsenic V that was then effectively removed in the pilot plant. After treatment residual arsenic levels of 10 µg/L were obtained compared to 68 µg/L without oxidation reagent addition. 相似文献
13.
M.J. Watts J. O'Reilly A. Maricelli A. Coleman E.L. Ander N.I. Ward 《Journal of Geochemical Exploration》2010
Soil and water samples were collected from farmsteads and provincial towns across the provinces of La Pampa and San Juan in Argentina. Inductively coupled plasma mass spectrometry was used for the determination of iodine in water following addition of TMAH to 1% v/v and soils extracted with 5% TMAH. Iodine in agricultural soils was in the range of 1.3–20.9 mg/kg in La Pampa located in central Argentina and 0.1–10.5 mg/kg in San Juan located in the northwest Andean region of Argentina, compared to a worldwide mean of 2.6 mg/kg. Mean selenium concentrations for soils from both provinces were 0.3 mg/kg, compared to a worldwide mean of 0.4 mg/kg. The majority of soils were slightly alkaline at pH 6.7 to 8.8. The organic content of soils in La Pampa was 2.5–5.9% and in San Juan 0.1–2.3%, whilst, mobile water extractable soil-iodine was 1–18% for La Pampa and 2–42% for San Juan. No simple relationship observed for pH and organic content, but mobile iodine (%) was highest when organic content was low, higher for lower total iodine concentrations and generally highest at pH > 7.5. Water drawn for drinking or irrigation of a variety of crops and pasture was found to range from 52 to 395 µg/L iodine and 0.8 to 21.3 µg/L selenium in La Pampa and 16–95 µg/L iodine and 0.6 to 8.2 µg/L selenium in San Juan. The water samples were all slightly alkaline between pH 8 and 10. Water–iodine concentrations were highest at pH 7.8 to 8.8 and in groundwaters positively correlated with conductivity. Raw water entering water treatment works in La Pampa was reduced in iodine content from approximately 50 µg/L in raw water to 1 µg/L in treated drinking water, similar to levels observed in regions experiencing iodine deficiency. 相似文献
14.
Mohammad Mokammel Haque Hussien Abdulrahman Al Attas Mutaz Ali Hassan 《Arabian Journal of Geosciences》2016,9(6):464
The concentrations of 16 trace elements (Ag, Al, As, B, Ba, Cd, Cr, Cu, Hg, Mn, Ni, Pb, Se, Ti, U, and Zn) in drinking water from Najran City, Saudi Arabia, were determined by inductively coupled plasma-mass spectrometry (ICP-MS) and compared with local, regional, and international guidelines. Water samples from 22 water treatment plants and 13 commercial bottled water brands were analyzed. Except for B and U, the trace element concentrations were below the permitted limits defined in SASO, GSO, and WHO drinking water quality guidelines. The B concentrations in three brands of bottled water were 533.19, 602.29, and 1471.96 μg/L, which were all higher than the GSO and SASO limit (500 μg/L). The U concentrations were higher than the SASO limits for drinking water in two samples; one in treatment plant (2.39 μg/L) and another in foreign bottled water (2.17 μg/L). The median As, Ba, Cu, Ni, U, and Zn concentrations were statistically significantly higher in the treatment plant water samples than those in the bottled water samples, and conversely, the B concentrations were higher in the bottled water samples. The Cd, Hg, and Ti concentrations were below the detection limits of ICP-MS in all of the water samples. Apart from few exceptions, trace element concentrations in drinking water of Najran City were all within limits permitted in the national, regional, and international drinking water quality guideline values. 相似文献
15.
T. S. Imo T. Oomori M. Toshihiko F. Tamaki 《International Journal of Environmental Science and Technology》2007,4(4):421-426
The purpose of this study was to assess exposure of four trihalomethanes (chloroform, bromodichloromethane, dibromochloromethane and bromoform) in drinking water of Okinawa Island and Samoa. Trihalomethanes compounds were determined in the drinking water samples that were collected from the selected consumption sites and treatment plants of both Okinawa and Samoa in 2003–2004. The Chatan and Nishihara Water Treatment Plants (Okinawa) uses both ozonation and chlorination for primary and secondary disinfection. For Samoa Water Treatment Plants only chlorination is used as primary disinfection. Results showed that the mean concentration of trihalomethanes from treatment plants in Okinawa ranged from 0.30 ± 1.81 ?g/L to 11 ± 2.68 ?g/L and from the consumption sites ranged from 2.08 ± 0.32?g/L to 19.39 ± 100 ?g/L. In comparison, the mean concentration of trihalomethanes from the treatment plants in Samoa ranged from 226 ± 81.2 ?g/L to 267 ± 92.3 ?g/L and from the consumption sites were in the ranges 212 ± 101 ?g/L to 387 ± 125 ?g/L. Brominated compounds were commonly seen in all samples collected in Okinawa. Among the trihalomethanes compounds, chloroform was the common detected trihalomethanes in the samples collected from Samoa. The trihalomethanes levels in all samples collected in Okinawa and Samoa were generally below the guideline values in Japan, but some samples displayed levels which exceeded the level of Japan Water Quality and WHO Standards for chlorinated and brominated compounds. 相似文献
16.
Twenty-eight tube well water samples were collected in February, 2006, from households in the Cambodian provinces of Prey Veng and Kandal. Concentrations of total As in both provinces ranged from not detectable (ND) up to about 900 μg/L, with about 54% of all the samples collected exceeding the WHO drinking water guide value of 10 μg/L. In addition, about 32% of all samples contained concentrations of Mn exceeding the WHO drinking water guide value of 400 μg/L. It is interesting to note that more than half (about 56%) of tube wells with Mn over 400 μg/L had the non-detectable As. Barium, Sr and Fe were also detected in most of tube well samples, which were typically circum-neutral and reducing. Arsenic speciation was dominated (80%) by dissolved inorganic As(III). The occurrence and composition of the well waters is consistent with the As being mobilized from aquifer sediments by natural processes in a highly reducing environment. The highest estimated cumulative As intake for individuals using the sampled well waters as drinking water is estimated to be around 400 mg As/a – this is comparable to intakes that have resulted elsewhere in the world in serious As-related illnesses and highlights the possibility that such adverse health impacts may arise in Cambodia unless appropriate remedial measures are taken. 相似文献
17.
Lake Müggelsee (Groer Müggelsee) — the largest lake in the area of Berlin — is the main drinking water reservoir for Berlin (East), but also a center of numerous recreational activities and fishing. The use of the lake and its catchment area has continuously increase during the past decase and has caused a substantail deterioration of the lake water quality. Mass development of algae has become a limiting factor to all future utilizations of the lake. Since the beginning of this century up to the seventies the lake water has shown signs of a permanently growing eutrophication, e.g. the content of particulate matter in the lake water has nearly doubled. During and after World War II the lake quality (Secchi depth and seston content) improved remarkably due to a reduced input of nutrients.According to time series analyses of buoyant seston and meterologica elements the development of blue-green algae seems to depend more on weather conditions than on the nutrient content of the lake water.Therefore, a certain probability of blue-green algae blooms will remain, also in the case of reduced nutrient input. Phosphorous is the main cause for eutrophication. It was responsible for distinctly higher mass developments of algae during spring and autumn in the past two decades. As a consequence, comprehensive measures are to be taken to reduce phosphorus inputs into the Spree river and lake Müggelsee, e.g. by the substitution of P in detergents, construction of tertiary sewage treatment plants and a substantially reduced application of fertilizers in agriculture. 相似文献
18.
Enis Morkoç Vildan Tüfekçi Huseyin Tüfekçi Leyla Tolun Fatma Telli Karakoç Tuğba Güvensel 《Environmental Geology》2009,57(5):1035-1045
The Omerli reservoir is located on the northeastern side of the Istanbul City. It is one of the most important sources of drinking water with a surface area of 23.1 km2 and a volume of 220 × 106 m3 in the Marmara Region. Water quality characteristics of the lake investigated from May 2002 to April 2003 enabled us to identify the effect of waste loads on water quality of Omerli Lake. The following parameters were measured in the lake water: temperature (16.1°C), conductivity (250 μS/cm), secchi disk depth (1.9 m), dissolved oxygen (DO) (9.36 mg/L), nutrients [ortho-phosphate (78.9 μg/L), nitrate + nitrite (707.5 μg/L) and ammonia-nitrogen (264 μg/L)], chlorophyll a (9.43 μg/L), total organic carbon (3.33 mg/L), total suspended solids (4.54 mg/L), total poly aromatic hydrocarbon (t-PAH) (0.69 μg/L) and copper (24.5 μg/L). T-PAH (16.5 mg/g-dry-w), Cu (96.5 μg/g-dry-w), organic carbon (org-C) (2.0%) and N (0.44%) were determined in the surface sediment. The values of chlorophyll a and DO in the upper layer were relatively high and low secchi disk depths indicates eutrophic state. There are five channels discharging water, including waste water, into the lake. All channels were sampled during six occasions in order to cover variations between seasons. The following parameters were measured: total organic carbon, total phosphorus, total kjeldahl nitrogen, ammonia and total suspended solids with the flow rates. The Göçbeyli stream has the highest flow into the lake (1.5 × 108 m3/year) but most of the nutrients were discharged from the Pa?aköy channel. It is accounting for 81% of ammonia and 80% of total phosphorus into the lake. Three scenarios were run using AQUATOX model: (1) all existing inflows are discharging into the lake (present situation); (2) none is discharging; (3) all are discharging except the Pa?aköy channel. The first scenario produced concentrations consistent with measurements in the lake. In all stations, a phytoplankton peak value was predicted during November and December 2002, and January 2003. In the second scenario, as expected, a significant decrease in the concentrations was predicted. In the third scenario, a small improvement in the water quality was obtained. To significantly improve the state of the lake, instead of entering Pa?aköy channel, wastewater should bypass the lake. 相似文献
19.
Ekaterina Vasyukova Wolfgang Uhl Fuad Braga Claudia Simões Tânia Baylão Klaus Neder 《Environmental Earth Sciences》2012,65(5):1587-1599
Drinking water production at three waterworks was evaluated with respect to variable weather conditions in the Brasília Distrito
Federal. Results of the investigation revealed that seasonal variations in rainfall play an important role in influencing
the quality of the surface water sources used for drinking water production in the district. In most surface sources, particles
and apparent colour are likely to originate from erosion during rain events. This represents the primary challenge facing
waterworks, notably when the raw water qualities of the sources to be treated at one facility differ by one order of magnitude,
as well significantly varying from one season to the next. Treatment efficiencies in terms of turbidity, apparent colour and
dissolved organic carbon (DOC) removal were evaluated. Drinking water quality was found to be significantly influenced by
raw water quality at all considered treatment plants. With regard to DOC removal, treatment was most efficient in waterworks
which treated raw water with high percentages of biopolymers and humics. Most dissolved organics were removed by coagulation.
Finally, conclusions are drawn on how to better cope with challenges facing drinking water production in a tropical climate.
The first of these recommendations is the introduction of online turbidity and dissolved organic matter monitoring in order
to optimise the coagulation process for the removal of these two parameters. A combination of different coagulants could also
be considered for this process. Additional more sophisticated improvements to process stability, such as determination of
floc characteristics, introduction of artificial neural networks or the eventual upgrade of the treatment train using membrane
filtration, are also suggested. 相似文献
20.
采用决策树方法和非线性回归方法建立湖泊水华预警模型。决策树方法预测水华爆发时机,非线性回归方法预测水华爆发强度,并运用信号灯显示方法,划分出水华爆发的预警区间。以北京六海为例,模型结果表明来水水量Q,温度T和总磷浓度是影响“六海”湖泊水华爆发的主要影响因子,选择叶绿素a(Chl-a)<30 μg/L的预警信号为绿色,30 μg/L60 μg/L为红色。当每月来水量Q>79.0万m3或来水量Q<79.0万m3,水温<13.4℃,预警指标为绿色;Q<79.0万m3,水温T>13.4℃,水华预警为黄色;Q<38.7万m3时,T>23.25℃,TP>0.13 mg/L,水华预警为红色。对模型结果分类进行了验证。结果表明:模型对于限制因素发生变化时的水华预测结果更为准确,并且结构简单,输入输出关系明显,结果易于解释。 相似文献