平板膜污泥浓缩工艺操作条件的优化研究

为了解决传统污泥浓缩存在的问题,采用平板膜污泥浓缩(MST)工艺进行污泥浓缩,在浓缩污泥的同时实现中水回用.采用正交试验和层次分析法分析评价操作条件对MST工艺的影响.正交试验选择了膜通量、曝气量和抽停比3个操作条件.结果表明,针对污泥浓缩效果、出水水质和曝气量3个不同的考核指标,工艺具有不同的最佳操作条件;整个试验过程中出水浊度小于1,COD在30mg/L左右,氨氮小于5mg/L,基本满足城市杂用水水质标准.采用层次分析法选择出了MST工艺的最佳操作条件为:曝气量1.0 m3/h,膜通量18L/(m2·h),抽停比10min:2min.     

发光细菌冷冻干燥条件优化研究与应用

发光细菌用于水质毒性快速检测时,使用冷冻干燥制剂复苏发光细菌非常必要。配制冷冻干燥保护剂时,采用较低浓度脱脂牛奶(质量分数分别为4%、6%、8%、10%、12%)以及NaCl溶液(质量分数分别为0.5%、1.0%、1.5%、2.0%、2.5%、3.0%)进行双因素多梯度的实验,确定发光细菌的最佳冷冻干燥保护剂配方为12%脱脂牛奶以及2.0%NaCl溶液。采用复苏后的发光细菌,检测实际水样的毒性,结果与工业废水毒性评价结果相符。     

真空蒸馏回收镍镉电池中镉金属工艺优化模型研究

利用正交试验的方法对真空蒸馏回收镍镉电池进行工艺研究。通过分析温度、压力、蒸馏时间、打孔数目4个因素对镉金属回收比重的影响,确定了真空蒸馏回收镍镉电池中镉金属的最佳试验条件为温度950℃,压力133Pa,蒸馏12h,打孔4个。并在此基础上建立模型对镉金属回收量进行估算,为镍镉电池回收的中试试验奠定了基础。     

高效液相色谱-串联质谱法同时检测地表水中13种药物及个人护理品

采用高效液相色谱-串联质谱(HPLC-MS/MS)检测,建立了地表水中13种药物及个人护理品的测定方法。水样用盐酸与氢氧化钠溶液调pH值至7.0左右,过固相萃取小柱进行富集,用14 mL甲醇洗脱。以C18柱为分离柱,0.01%甲酸的甲醇-0.01%甲酸水溶液为流动相,目标物在10 min内分离,在0.50~250 μg/L范围内,13种化合物峰面积与内标物质峰面积之比与质量浓度的线性关系良好(>0.99),检出限在0.05~0.5 ng/L范围内。基质加标实验结果表明,13种化合物在水中的回收率分别在56.2%~123.2%之间(加标水平5 ng/mL)和58.0%~107.8%(加标水平50 ng/mL),相对标准偏差在1.60%~19.9%(n=6)之间。应用该方法测定了从2条纳污河流采集的10份水样,结果表明,除美托诺尔和普洛萘尔未被检出外,其余11药物的检出频率在30%~100%之间。在13种目标物质中,咖啡因的检测浓度最高达287.5 ng/L,舒必利次之,为277.5 ng/L。本方法快速、准确,适用于地表水中PPCPs类的快速测定。     

施粪肥土壤中抗生素的提取条件优化及残留特征

为确立高效的土壤抗生素提取条件,揭示施用粪肥土壤中抗生素的残留水平,分别采集江苏省常州市某养猪场新鲜猪粪样品6份、施用粪肥及无机肥水稻土壤样品各13份,对土壤抗生素提取液配比与超声提取时间进行筛选,利用高效液相色谱-串联质谱（HPLC-MS/MS）对生猪粪便和土壤中的四大类（四环素类、磺胺类、喹诺酮类和大环内脂类）15种抗生素含量进行检测分析。结果表明,最优提取条件选择为：提取液配比为甲醇：EDTA=1：1,超声提取时间为10 min,四环素类抗生素的加标回收率为73.2%~93.4%,磺胺类为81.2%~101.1%,喹诺酮类为106.3%~110.8%。该养猪场猪粪与施粪肥土壤中均未检测到大环内脂类抗生素,其余各类抗生素平均残留量从高到低排序分别为：猪粪中四环素类 > 磺胺类 > 喹诺酮类;施粪肥土壤中四环素类 > 喹诺酮类 > 磺胺类,四环素类是最主要的抗生素污染物,残留量分别为猪粪中1.9~12.5 mg·kg-1、施粪肥土壤中23.9~212.4 μg·kg-1;施无机肥土壤中未检测出抗生素,施粪肥土壤中的抗生素来源于生猪粪便。     

光磁耦合废水处理工艺条件的优化研究

以Fe3O4/TiO2作为磁性光催化剂,采用光磁耦合技术处理模拟印染废水。利用统计学方法对光磁耦合废水处理的影响因素进行了探讨和分析,考察了磁场强度、磁性光催化剂投加量、pH值和光照时间对光磁耦合废水处理的影响。通过Design-Expert 7.0.0软件分析得到最佳工艺条件:磁场强度73.95 mT,磁性光催化剂投加量1.13 g/L,模拟废水pH值13,光照时间120 min。在最佳工艺条件下进行实验,脱色率为88.60%。     

产木聚糖酶嗜碱细菌的筛选及产酶条件研究

利用透明圈法筛选到一株产木聚糖酶的嗜碱芽孢杆菌NT 9,该菌株产木聚糖酶为组成型。正交设计实验结果表明 ,合适的产酶条件为 :木糖 15 .0g/L ,硫酸铵 2 .5 g/L ,Tween 80 2 0 g/L ,K2 HPO4 1.0g/L ,MgSO4 ·7H2 O 0 .2g/L ,pH值 10 .0 ,3 7℃ ,2 0 0r/min ,振荡培养 72h。其木聚糖酶活力可达到 6.3 6IU/mL。     

Fenton试剂法处理甘氨酸废水中COD的研究

通过正交试验的方法用Fenton试剂对甘氨酸生产中的工业废水进行了试验研究,分析了各因素影响程度及各影响因子的作用机理,得出了最佳的操作条件为:H2O2:COD=1.8,[Fe2 ]=40 mmol/L,反应温度40℃,pH值为3,反应时间为80 min,最终的COD去除率为68%左右.     

道路交通中苯并(a)芘的高效液相色谱快速测定

用超细玻璃纤维滤膜采集杭州市某道路上机动车排放的苯并（ａ）芘,经超声萃取,高速离心后直接进ＨＰＬＣ分析。在选定的色谱条件下,苯并（ａ）芘与其他多环芳烃完全分离,绝对进样量在０．８～０．０２ ｎｇ时线性良好,相关系数为０．９９９７９,最小检出量０．８ ｐｇ,加标回收率８７．５％～９３．８％。     

Mobility of dimethoate residues from spring broccoli field

Dimethoate [O, O-dimethyl-S-(N-methylcarbamoyl-methyl) phosphorodithioate] is a broad-spectrum systemic insecticide currently used worldwide and on many vegetables in Kentucky. Dimethoate is a hydrophilic compound (log KOW = 0.7) and has the potential of offsite movement from the application site into runoff and infiltration water. The dissipation patterns of dimethoate residues were studied on spring broccoli leaves and heads under field conditions. Following foliar application of Dimethoate 4E on broccoli foliage at the rate of 0.47 L acre(-1), dimethoate residues were monitored in soil, runoff water collected down the land slope, and in infiltration water collected from the vadose zone. The study was conducted on a Lowell silty loam soil (pH 6.9) planted with broccoli under three soil management practices: (i) soil mixed with municipal sewage sludge, (ii) soil mixed with yard waste compost, and (iii) no-mulch rototilled bare soil. The main objective of this investigation was to study the effect of mixing native soil with municipal sewage sludge or yard waste compost, having considerable amounts of organic matter, on off-site movement of dimethoate residues into runoff and infiltration water following spring rainfall. The initial deposits of dimethoate were 6.2 and 21.4 micro g g(-1) on broccoli heads and leaves, respectively. These residues dissipated rapidly and fell below the maximum residue limit of 2 micro g g(-1) on the heads and leaves after 10 and 14 d, respectively, with half-lives of 5.7 d on broccoli heads and 3.9 d on the leaves. Dimethoate residues detected in top 15 cm of soil (due to droplet drift and wash off residues from broccoli foliage) one day (d) following spraying, were 30.5 ng g(-1) dry soil in the sewage sludge treatment, and 46.1 and 134.5 ng g(-1) dry soil in the yard waste and no mulch treatments, respectively. Water infiltration was greater from yard waste compost treatment than from no mulch treatment, however concentrations of dimethoate in the vadose zone of the three soil treatments did not differ.     

Mobility of dimethoate residues from spring broccoli field

Dimethoate [O, O-dimethyl-S-(N-methylcarbamoyl-methyl) phosphorodithioate] is a broad-spectrum systemic insecticide currently used worldwide and on many vegetables in Kentucky. Dimethoate is a hydrophilic compound (log K_OW = 0.7) and has the potential of offsite movement from the application site into runoff and infiltration water. The dissipation patterns of dimethoate residues were studied on spring broccoli leaves and heads under field conditions. Following foliar application of Dimethoate 4E on broccoli foliage at the rate of 0.47 L acre^?1, dimethoate residues were monitored in soil, runoff water collected down the land slope, and in infiltration water collected from the vadose zone. The study was conducted on a Lowell silty loam soil (pH 6.9) planted with broccoli under three soil management practices: (i) soil mixed with municipal sewage sludge, (ii) soil mixed with yard waste compost, and (iii) no-mulch rototilled bare soil. The main objective of this investigation was to study the effect of mixing native soil with municipal sewage sludge or yard waste compost, having considerable amounts of organic matter, on off-site movement of dimethoate residues into runoff and infiltration water following spring rainfall. The initial deposits of dimethoate were 6.2 and 21.4 μ g g^?1 on broccoli heads and leaves, respectively. These residues dissipated rapidly and fell below the maximum residue limit of 2 μ g g^?1 on the heads and leaves after 10 and 14 d, respectively, with half-lives of 5.7 d on broccoli heads and 3.9 d on the leaves. Dimethoate residues detected in top 15 cm of soil (due to droplet drift and wash off residues from broccoli foliage) one day (d) following spraying, were 30.5 ng g^?1 dry soil in the sewage sludge treatment, and 46.1 and 134.5 ng g^?1 dry soil in the yard waste and no mulch treatments, respectively. Water infiltration was greater from yard waste compost treatment than from no mulch treatment, however concentrations of dimethoate in the vadose zone of the three soil treatments did not differ.     

Optimization of the coating layer for the measurement of ammonia by diffusion denuders

The performance of citric acid, oxalic acid and phosphorous acid as denuder coating layers for the determination of atmospheric ammonia have been studied by means of laboratory and field tests. The parameters evaluated during the study include: collection efficiency, selectivity of the coating layer, stability of the reaction product, operative capacity and stability of the coating layer. The results of this study show that phosphorous acid is a suitable coating layer for a denuder line intended to determine both gaseous ammonia and particulate ammonium in the atmosphere. It has been found that the citric acid coating suffers from an insufficient strength of the bond between collected ammonia and the coating layer, which causes a release of the collected ammonia both towards the air flow and towards the active sites of the denuder glass. The performance of oxalic acid was very good in the determination of gaseous ammonia, but this coating showed to be unsuitable for denuder sampling lines which are intended also for the determination of atmospheric ammonium. The volatilisation of oxalic from the denuder surface, in fact, causes a displacement of nitrate from the Teflon filter and an excess of nitrate ion on the back-up filter.Phosphorous acid-coated denuders were added to the sampling line employed in the EMEP station of Montelibretti. Reliable and interesting results were obtained, which allowed us to detect the presence of gaseous ammonia adsorbed on atmospheric particles.     

优化混凝处理低温低浊黄河水及对余铝的控制

考察了4种混凝剂,高效聚合氯化铝（HPAC）,聚合氯化铝（PACl）,硫酸铝（Al2（SO4）3）,混合PACl和氯化铁（FeCl3）,对低温低浊黄河原水的混凝效果与沉后水残留铝含量的关系。结果表明,当采用Al2（SO4）3或PACl做混凝剂时,在取得较好浊度去除的投药量下,水中余铝浓度会超过国家标准（0．2131g／L）。而采用HPAC或FeCl3和PACl复配药剂,在取得与Al2（SO4）3或PACl类似的浊度去除效果的同时,也能较好地控制水中的余铝含量。当HPAC投加量为21mg／L时,沉后水浊度降至1．3NTU,残留铝含量为0．147mg／L。复配投加PACl 15mg／L和FeCl3 12mg／L后,沉后水浊度为1．18NTU,残留铝含量为0．074mg／L。PACl和氯化铁的复配比例需要精确的调控,否则容易导致出水余铁余铝含量增加。而HPAC投加量小于21mtg／L时出水余铝浓度均低于国家标准。因此,在这4种混凝剂中,就混凝效果及余铝控制而言,HPAC更适合充当低温低浊水源水的混凝处理药剂。     

Yield loss assessments for cultivars of broccoli, lettuce, and onion exposed to ozone

The effects of the photochemical oxidant air pollutant ozone (O(3)) on growth and yield of three garden crops, broccoli (Brassica oleracea L.), lettuce (Lactuca sativa L.), and onion (Allium cepa L.) were studied in an open-top chamber experiment conducted in the field in southern California. Four cultivars each of leaf lettuce, broccoli, and globe onion were exposed to charcoal-filtered air (CF), non-filtered (NF) air, or NF plus 1.5 times ambient O(3) concentration from 4 weeks after germination in January or February until harvest. Exposures lasted 31 days for lettuce, 55 to 78 days for broccoli, and 105 days for onion. Results showed that despite severe O(3) injury to outer leaves, lettuce yields were not affected by O(3). Broccoli also was resistant to O(3) and no growth reduction was observed at ambient O(3) concentrations. Onions were more susceptible to O(3), but only one cv. 'Rio Bravo' had significant yield losses (ca. 5%) at ambient O(3) levels. These results suggest that, in general, concentrations of O(3) in the winter and spring may be below the threshold for adverse effects on yields of broccoli, lettuce and onion.     

改性二次锶渣吸附去除废水中的磷

以改性二次锶渣为吸附剂,研究了吸附时间、吸附剂投加量、磷初始浓度和pH值对废水中磷去除效果的影响。结果表明,当总磷浓度为10mg／L,pH为7、二次锶渣投加量为15g／L时,90min内就可使废水中磷的去除率达到95％以上,总磷浓度低于污水综合排放标准的一级标准;改性二次锶渣对磷的吸附符合Langmuir等温吸附模型及准二级动力学模型。     

HPLC determination of chlorate metabolism in bovine ruminal fluid

Salmonella and Escherichia coli are two bacteria that are important causes of human and animal disease worldwide. Chlorate is converted in the cell to chlorite, which is lethal to these bacteria. An HPLC procedure was developed for the rapid analysis of chlorate (ClO(3)(-)), nitrate (NO(3)(-)), and nitrite (NO(2)(-)) ions in bovine ruminal fluid samples. Standard curves for chlorite, nitrite, nitrate, and chlorate were well defined linear curves with R(2) values of 0.99846, 0.99106, 0.99854, and 0.99138, respectively. Concentrations of chlorite could not be accurately determined in bovine ruminal fluid because chlorite reacts with or binds a component(s) or is reduced to chloride in bovine ruminal fluid resulting in low chlorite measurements. A standard curve ranging from 25 to 150 ppm ClO(3)(-) ion was used to measure chlorate fortified into ruminal fluid. The concentration of chlorate was more rapidly lowered (P < 0.01) under anaerobic compared to aerobic incubation conditions. Chlorate alone or chlorate supplemented with the reductants sodium lactate or glycerol were bactericidal in anaerobic incubations. In anaerobic culture, the addition of sodium formate to chlorate-fortified ruminal fluid appeared to decrease chlorate concentrations; however, formate also appeared to moderate the bactericidal effect of chlorate against E. coli. Addition of the reductants, glycerol or lactate, to chlorate-fortified ruminal fluid did not increase the killing of E. coli at 24 h, but may be useful when the reducing equivalents are limiting as in waste holding reservoirs or composting systems required for intense animal production.