磷酸铵镁沉淀法处理制药废水试验研究

制药废水由于制药原料化学纯度较高,废水中常含高浓度氮、磷污染物,采用磷酸铵镁沉淀法可同时回收两种元素不仅可以有效同时去除两种污染物,而且可以得到附加值较高的磷酸铵镁盐,因此本研究用磷酸铵镁化学沉淀法小试实验处理制药废水,讨论了磷酸铵镁沉淀法pH、晶种、初始浓度对P0^3- 4和NI-14同时去除的影响。试验结果表明：投加镁盐,在pH=9．5的条件下,可去除90％PO^3- 4,同时可去除15％NH4,在Po^-3 4和NH4浓度较低时,投加晶种可使Po;一去除率提高20％,该法渴望为制药废水处理提供创造经济效益的经验。     

缺水重污染河流可溶性金属Pb水质基准研究

以渭河陕西段作为研究对象,采用USEPA制定的淡水可溶性金属基准计算参数与公式以及对比分析等方法,对渭河陕西段中具有环境内分泌干扰物特性的可溶性金属铅(Pb)的水质基准(WQC)进行了研究.结果认为:可将0.0113 mg/L作为渭河陕西段淡水可溶性金属Pb的基准推荐值,该基准推荐值可对渭河陕西段中可溶性金属Pb的地方水质标准制定提供科学的技术数据参考.     

改善通辽市环境质量的对策与建议

本文为改善“十二五”期间通辽市环境质量和生态环境质量,从政策、技术和管理角度提出对策措施,保证区域可持续化发展。     

巢湖水质与流域农业投入的关联性研究

为探讨巢湖富营养化与流域农业生产投入资源的关联性,选择了化肥剩余、节水灌溉面积、农膜、水土流失治理等可能影响水体富营养化的因子;研究中采用相关分析与逐步回归的方法,同时,提出了一种结合Technique for Order Preferenceby Similarity to Ideal Solution(TOPSIS)法计算化肥剩余量的方法.结果表明,巢湖流域农业生产投入的各种资源中,对巢湖水体富营养化影响较大的是化肥剩余、节水灌溉面积和农膜,并且化肥剩余的影响还存在1 a的滞后期.因此,有必要从提高化肥利用效率、改进灌排水方式并减少农业用水入手,以求节约资源,同时降低农业生产对巢湖水质的影响.     

生物炭和有机肥对华北农田盐碱土N2O排放的影响

基于山东滨州地区冬小麦-夏玉米轮作大田试验,探究了施用生物炭和有机肥对夏玉米季土壤氧化亚氮(N_2O)排放的影响,为盐碱土壤N_2O增汇减排提供理论依据.试验按照不同处理氮、磷、钾含量相同原则,设置对照CK[N:0.2t·(hm~2·a)~(-1),P_2O_5:0.12 t·(hm~2·a)~(-1),K_2O:0.2 t·(hm~2·a)~(-1)]、C1[5 t·(hm~2·a)~(-1)生物炭]、C2[10 t·(hm~2·a)~(-1)生物炭]、C3[20 t·(hm~2·a)~(-1)生物炭]、M1[7.5 t·(hm~2·a)~(-1)有机肥]、M2[10 t·(hm~2·a)~(-1)有机肥]这6个处理.结果表明,施加生物炭和有机肥对土壤N_2O排放影响趋势基本一致,排放高峰均出现在施肥(基肥和追肥)后,累积排放量占整个生育期排放量的近一半;与CK相比,C1、C2分别降低N_2O排放的45.3%、31.6%,而C3、M1、M2分别增加了17.3%、37.4%、27.6%.施加生物炭和有机肥均会对土壤N_2O排放产生影响,施加生物炭可以降低N_2O排放,而施加有机肥则促进了N_2O排放.因此,生物炭对减少农田N_2O排放具有巨大潜力.     

缓控释肥侧深施对稻田氨挥发排放的控制效果

以减少氨挥发损失为目的,以无机化肥分次施用为对照,选用树脂包膜尿素(RCU)、硫包衣尿素(SCU)和掺混控释肥(RBB)3种不同类型缓控释肥料,采用一次性施肥(B)和一基一穗(BF)2种施肥方式,研究了插秧施肥一体化条件下不同类型缓控释肥侧深施及施用方式对稻田田面水氮浓度及氨挥发损失的影响.结果表明,除SCU处理基肥期田面水总氮和铵态氮质量浓度均高于常规分次施肥处理CN,RCU和RBB处理均低于CN处理.不同缓控释肥料稻田氨挥发损失差异较大,损失量占施肥量的3.84%~28.17%.与CN处理相比,不同类型缓控释肥料均有减少稻田氨挥发损失的效应,处理间氨挥发损失量表现为:CN、B-SCUBF-SCU、BF-RBB、BF-RCU、B-RBB、B-RCU.一次性基施下,B-SCU处理的氨挥发总量显著高于B-RCU和B-RBB处理,一基一穗下3种处理间氨挥发总量差异不显著.不同肥料在2种施肥方式下氨挥发损失量差异不显著,但表现不一致.BF-SCU处理的氨挥发损失量低于B-SCU处理,BF-RCU和BF-RBB处理的氨挥发损失量分别高于B-RCU和B-RBB处理.阶段氨挥发损失来看,施用SCU处理的基肥-蘖肥(7.54%)和蘖肥-穗肥阶段(16.04%)的损失较高,RBB处理的基肥-蘖肥阶段氨挥发损失(2.91%)明显增加,而RCU处理的穗肥后阶段(2.75%)是氨挥发损失的集中时期.追施穗肥尿素增加了穗肥后阶段的氨挥发排放损失,穗肥后阶段氨挥发量与田面水铵态氮质量浓度在不同类型肥料间无明显相关关系.     

Hydrocarbons in particulate samples from wildfire events in central Portugal in summer 2010

In summer 2010, twenty eight(14 PM_(2.5)samples plus 14 samples PM_(2.5–10)) smoke samples were collected during wildfires that occurred in central Portugal. A portable high-volume sampler was used to perform the sampling, on quartz fibre filters of coarse(PM_(2.5–10)) and fine(PM_(2.5)) smoke samples. The carbonaceous content(elemental and organic carbon) of particulate matter was analysed by a thermal–optical technique. Subsequently, the particulate samples were solvent extracted and fractionated by vacuum flash chromatography into three different classes of organic compounds(aliphatics, polycyclic aromatic hydrocarbons(PAHs) and carbonyl compounds). The organic speciation was performed by gas chromatography–mass spectrometry(GC–MS). Emissions were dominated by the fine particles, which represented around 92% of the PM_(10). A clear predominance of carbonaceous constituents was observed, with organic to elemental carbon(OC/EC)ratios ranging between 1.69 and 245 in both size fractions. The isoprenoid ketone6,10,14-trimethyl-2-pentadecanone, a tracer for secondary organic aerosol formation, was one of the dominant constituents in both fine and coarse particles. Retene was the most abundant compound in all samples. Good correlations were obtained between OC and both aliphatic and PAH compounds. Pyrogenic processes, thermal release of biogenic compounds and secondary processing accounted for 97% of the apportioned PM_(2.5)levels.     

A zero-valent iron and organic matter mixture enhances herbicide and herbicide degradation product removal in subsurface waters

The pesticide atrazine,its degradation products,and 2,6-dichlorobenzamide(BAM) are persistent in groundwater environment.We studied whether their dissipation can be enhanced with a mixture of a complex carbon source and zero-valent iron(ZVI) called EHC.The application rates were 1.0% and 2.0%(by weight) in subsurface sediments slurries(atrazine 30 mg/L),and 2.0% in 1.5 m pilot-scale sediment columns with groundwater flowing through(atrazine 0.08,desethylatrazine DEA 0.03,BAM 0.02 μg/L).In the slurries under aerobic conditions,atrazine of 0.88 ± 0.14 mg/g of EHC was dissipated chemically,as concentrations did not differ significantly between the slurries and their sterilized controls.No degradation occurred in the slurries under anaerobic conditions.In the pilot-scale columns under water-saturated conditions,atrazine,DEA and BAM were not detected in effluents during 33,64 and 64 days from the beginning of the water flow through EHC columns,respectively,but thereafter traces of compounds could be detected.No atrazine or degradation products(BAM,DEA,deisopropylatrazine,desethyldeisopropylatrazine) could be extracted from the column sediments at the end of the experiment.As a result,the sum of dissipated pesticides was about7.6 μg/g of EHC in columns under water-saturated conditions,and 0.88 mg/g of EHC in slurries under aerobic conditions.EHC can be used to enhance the dissipation of studied pesticides in small quantities,preferentially under aerobic conditions.     

抗锶放线菌的分子鉴定及对Sr~(2+)的吸附效果和初步吸附机理分析

从大亚湾核电站附近水体中分离筛选出一株抗锶放线菌(编号YF-64),研究了该菌株在不同环境参数条件下对锶的吸附效果和初步机理,通过形态和16S rDNA序列相结合的方法对菌株进行了分类鉴定,采用红外光谱(FT-IR)分析技术对菌株吸附前后进行表征,探讨其吸附机制。结果表明,抗锶菌株隶属于天蓝黄链霉菌(基因序列登录号:JF901702),菌株对Sr~(2+)具有较强的吸附效果,根据数据显示,当接触时间为50 min,pH值为6,Sr~(2+)初始浓度为50 mg/L,摇床转速为120 r/min时,该菌株的吸附效果达到最佳为44.29 mg/g;FT-IR结果显示,JF901702菌株对Sr~(2+)的吸附主要是由细胞壁上的羟基,次甲基,羰基起主要吸附作用。由此可知,JF901702菌株可作为经济、高效、环境友好的生物吸附材料进行废水重金属处理。