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31.
公路地表灰尘及径流中颗粒物附着重金属对比研究 总被引:6,自引:0,他引:6
对北京城区北三环上北太平桥以西约300 m处路段地表灰尘及径流中不同粒径颗粒物附着重金属载荷进行对比研究.结果表明:(1)随着颗粒物粒径的增大,地表灰尘中颗粒物附着重金属浓度总体上逐渐降低;地表灰尘中<40.00 μm颗粒物附着重金属浓度最高;重金属载荷分布集中度不强,但主要集中在地表灰尘中<300.00 μm的颗粒物L.(2)地表径流中大部分重金属附着在<125.00 μm颗粒物上;0.45~10.00 μm颗粒物附着重金属载荷最高;0.45~40.00 μm颗粒物附着重金属载荷平均为77.1%.(3)地表灰尘中<40.00 μm的颗粒物的潜在水环境风险不太突出,但是其实际水环境影响却起主导作用.(4)进入水体的小粒径颗粒物质量分数升高是地表灰尘和径流重金届载荷随颗粒物粒径分布不同的重要原因之一;大气湿沉降对小粒径颗粒物重金属载荷可能会有一定的影响. 相似文献
32.
采用竹炭-微生物联合法,考察了竹炭用量、菌液用量、进水氨氮浓度、pH、DO、HRT等因素对氨氮废水处理效果的影响;同时采用对比实验,初步探讨了竹炭-微生物联合法处理沼液的作用机理。结果表明,竹炭-微生物法去除沼液氨氮的最优条件推荐为:竹炭用量30 g/L,微生物活性液用量3%,pH 7.0~8.0,DO为2 mg/L,HRT为48 h。竹炭-微生物法对沼液氨氮的去除过程可用一级反应动力学模型C=272.56e-0.0148描述,其去除效果来源于竹炭吸附和生物降解的协同作用,协同程度为48.45%。 相似文献
33.
以实际城市污泥为研究对象,通过采用表面活性剂作为阴极液,并考虑阴极液pH值、表面活性剂类型和电压3种因素对动电技术去除污泥中重金属(铜和镉)的影响,选用正交试验确定最佳试验条件.结果表明,采用表明活性剂作为阴极液加强动电技术去除污泥中重金属足可行的,铜和镉的去除率分别达到11.1%~52.6%和9.1%~46.7%.通过对正交试验结果进行极差和方差分析,试验的最佳条件为:电压为20 V,阴极液加入十六烷基三甲基氯化铵并控制pH值为4~6.表面活性剂的类型对动电技术去除镉具有显著影响.其中,表面活性剂类型对动电过程的影响最大,阴极液pH值次之,电压影响最小. 相似文献
34.
The sedimentation capabilities of hexadecyltrimethylammonium-modified montmorillonites 总被引:4,自引:0,他引:4
Natural montmorillonite was modified with a quaternary ammonium compound, hexadecyltrimethylammonium (HDTMA). The sedimentation capabilities of unmodified and modified montmorillonites were then investigated. The sedimentation velocity of modified montmorillonites increased if the amounts of adsorbed HDTMA were from 0.3 to 1.0 times the cation exchange capacitity (CEC). It also emerged that the sedimentation capability of modified montmorillonites was improved and that the variously CEC-modified montmorillonites had similar sedimentation capabilities after they had sorbed organic matter from oily wastewater. Thus, modified montmorillonites (especially 0.5 CEC treatment) had good sedimentation capabilities for sorbing organic substance and can act as carriers in wastewater biotreatment. 相似文献
35.
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37.
重铬酸钾─三氯化钛法测定水中溶解氧 总被引:1,自引:0,他引:1
杨积晴 《环境监测管理与技术》1996,(5)
介绍了三氯化钛(TiCl3)与氧反应,以钨酸钠(Na2WO4)作指示剂,用重铬酸钾溶液滴定过剩三氯化钛来测定水中溶解氧的方法。本法与碘量法比较,结果表明方法准确、快速,适合于水样中溶解氧的测定 相似文献
38.
Tanner BD Brooks JP Gerba CP Haas CN Josephson KL Pepper IL 《Journal of environmental quality》2008,37(6):2311-2321
Some speculate that bioaerosols from land application of biosolids pose occupational risks, but few studies have assessed aerosolization of microorganisms from biosolids or estimated occupational risks of infection. This study investigated levels of microorganisms in air immediately downwind of land application operations and estimated occupational risks from aerosolized microorganisms. In all, more than 300 air samples were collected downwind of biosolids application sites at various locations within the United States. Coliform bacteria, coliphages, and heterotrophic plate count (HPC) bacteria were enumerated from air and biosolids at each site. Concentrations of coliforms relative to Salmonella and concentrations of coliphage relative to enteroviruses in biosolids were used, in conjunction with levels of coliforms and coliphages measured in air during this study, to estimate exposure to Salmonella and enteroviruses in air. The HPC bacteria were ubiquitous in air near land application sites whether or not biosolids were being applied, and concentrations were positively correlated to windspeed. Coliform bacteria were detected only when biosolids were being applied to land or loaded into land applicators. Coliphages were detected in few air samples, and only when biosolids were being loaded into land applicators. In general, environmental parameters had little impact on concentrations of microorganisms in air immediately downwind of land application. The method of land application was most correlated to aerosolization. From this large body of data, the occupational risk of infection from bioaerosols was estimated to be 0.78 to 2.1%/yr. Extraordinary exposure scenarios carried an estimated annual risk of infection of up to 34%, with viruses posing the greatest threat. Risks from aerosolized microorganisms at biosolids land application sites appear to be lower than those at wastewater treatment plants, based on previously reported literature. 相似文献
39.
Mercury (Hg) has received considerable attention because of its association with various human health problems. Adsorption-desorption behavior of Hg at contaminated levels in two paddy soils was investigated. The two representative soils for rice production in China, locally referred to as a yellowish red soil (YRS) and silty loam soil (SLS) and classified as Gleyi-Stagnic Anthrosols in FAO/UNESCO nomenclature, were respectively collected from Jiaxin County and Xiasha District of Hangzhou City, Zhejiang Province. The YRS adsorbed more Hg(2+) than the SLS. The characteristics of Hg adsorption could be described by the simple Langmuir adsorption equation (r2 = 0.999 and 0.999, P < 0.01, respectively, for the SLS and YRS). The maximum adsorption values (Xm) that were obtained from the simple Langmuir model were 111 and 213 mg Hg(2+) kg(-1) soil, respectively, for the SLS and YRS. Adsorption of Hg(2+) decreased soil pH by 0.75 unit for the SLS soil and 0.91 unit for the YRS soil at the highest loading. The distribution coefficient (kd) of Hg in the soil decreased exponentially with increasing Hg(2+) loading. After five successive desorptions with 0.01 mol L(-1) KCl solution (pH 5.4), 0 to 24.4% of the total adsorbed Hg(2+) in the SLS soil was desorbed and the corresponding value of the YRS soil was 0 to 14.4%, indicating that the SLS soil had a lower affinity for Hg(2+) than the YRS soil at the same Hg(2+) loading. Different mechanisms are likely involved in Hg(2+) adsorption-desorption at different levels of Hg(2+) loading and between the two soils. 相似文献
40.
Effect of nitrogen fertilizer application on growing season soil carbon dioxide emission in a corn-soybean rotation 总被引:1,自引:0,他引:1
Nitrogen application can have a significant effect on soil carbon (C) pools, plant biomass production, and microbial biomass C processing. The focus of this study was to investigate the short-term effect of N fertilization on soil CO(2) emission and microbial biomass C. The study was conducted from 2001 to 2003 at four field sites in Iowa representing major soil associations and with a corn (Zea mays L.)-soybean (Glycine max L. Merr.) rotation. The experimental design was a randomized complete block with four replications of four N rates (0, 90, 180, and 225 kg ha(-1)). In the corn year, season-long cumulative soil CO(2) emission was greatest with the zero N application. There was no effect of N applied in the prior year on CO(2) emission in the soybean year, except at one of three sites, where greater applied N decreased CO(2) emission. Soil microbial biomass C (MBC) and net mineralization in soil collected during the corn year was not significantly increased with increase in N rate in two out of three sites. At all sites, soil CO(2) emission from aerobically incubated soil showed a more consistent declining trend with increase in N rate than found in the field. Nitrogen fertilization of corn reduced the soil CO(2) emission rate and seasonal cumulative loss in two out of three sites, and increased MBC at only one site with the highest N rate. Nitrogen application resulted in a reduction of both emission rate and season-long cumulative emission of CO(2)-C from soil. 相似文献