基于T-Hg2+-T结构的Hg2+生物传感器研究进展

Hg²⁺不仅污染环境,还会引发多种疾病,危害人体健康.因此,实现对Hg²⁺的快速灵敏检测十分必要.传统的Hg²⁺检测方法存在一定的局限性,而基于T-Hg²⁺-T结构的汞离子生物传感器具有高特异性、高稳定性的优势,近些年得到广泛研究和应用.本文简要介绍了T-Hg²⁺-T结构的概念和特点,并从荧光型、比色型和电化学型3个方面综述了基于T-Hg²⁺-T结构的汞离子生物传感器的研究进展,对未来的发展前景进行了展望.     

低碳氮比废水好氧颗粒污泥系统稳定性及微生物种群多样性研究

低碳氮比(C/N)废水处理是含氮废水处理中的难题之一.本实验在C/N为4:1和2:1(COD和NH₄⁺-N浓度分别为400 mg·L^-1和100 mg·L^-1,400 mg·L^-1和200 mg·L^-1)条件下,考察好氧颗粒污泥系统对低碳氮比废水的处理效果、长期运行稳定性,研究C/N对好氧颗粒微生物结构变化的影响.研究结果表明,在C/N为4:1的废水中接种活性污泥培养好氧颗粒污泥,形成的颗粒沉降性能良好,MLSS为4.94 g·L^-1,SVI30为40 mL·g^-1,COD去除率90%以上,氨氮去除率接近100%.降低碳氮比,即C/N为2:1后,好氧颗粒的物理及硝化性能无明显变化,MLSS为11.38 g·L^-1,SVI₃₀/SVI₅维持在1左右,COD去除率大于85%,氨氮去除率98%.碳氮比降低使颗粒微生物多样性减少,其中陶厄氏菌受影响较小,而硝化功能菌出现更替:噬氢菌、食酸菌、里德拜特氏菌消失,鞘氨醇单胞菌、束缚杆菌等成为优势菌种.实验表明,该低碳氮比条件下好氧颗粒污泥系统能够稳定运行,且具有优良的处理性能.     

离子色谱法同时测定北京市不同区域水体6种阳离子

建立离子色谱法测定不同区域水体Li⁺、Na⁺、NH₄⁺、K⁺、Ca²⁺、Mg²⁺等6种阳离子的方法,以及验证方法在实际应用的可行性.以ICS1000型离子色谱仪配有DionexIonPac CG12A阳离子保护柱(4 mm×50 mm)和CS 12A阳离子分离柱(4 mm×250 mm),CSRS 300型抑制器(4 mm),甲基磺酸为淋洗液,流量为1.0 mL·min^-1,6种阳离子的质量浓度在0.01—0.50 mg·L^-1到5.0—100.0mg·L^-1范围内线性较好,相关系数> 0.9995,方法检出限为0.002—0.020mg·L^-1,与有证标准溶液相对误差-2.50%—4.38%(n=6),不同环境水样加标回收率90.7%—107.5%.利用以上色谱条件分析北京市不同区域地表水阳离子分布特征,结果显示城乡结合部、城区和郊区水体p...     

掺氮碳量子点的制备及对偶氮类色素的荧光检测

以苯酚为碳源、乙二胺为氮源,采用一步水热法制备了水溶性的掺氮碳量子点(N-CQDs),用于偶氮类色素的荧光检测.首先对N-CQDs的形貌、组成和荧光特性进行了表征,然后研究了色素柠檬黄和胭脂红对N-CQDs体系显著的荧光猝灭效应,优化了实验条件.结果表明,该氮掺杂方法当苯酚-乙二胺摩尔比接近1∶1时,在N-CQDs表面可形成大量强供电子基团,有效提高了其荧光效率;柠檬黄、胭脂红对N-CQDs的荧光猝灭在5min内达到平衡,在磷酸盐缓冲溶液(pH=7.5)的条件下荧光猝灭效率最高,且均为静态猝灭.最佳条件下,柠檬黄浓度[Q]在0—80 nmol·L~(-1)范围内与N-CQDs体系的荧光猝灭程度(lgF_0/F)呈现良好的线性关系:lg F_0/F=0.0047[Q]-0.015,R~2=0.994,检出限为8.20 nmol·L~(-1);胭脂红浓度[Q]在0—40 nmol·L~(-1)范围内与N-CQDs体系的荧光猝灭程度(lg F_0/F)也呈现良好的线性关系:lg F_0/F=0.0252[Q]-0.0052,R~2=0.996,检出限为1.54 nmol·L~(-1).本研究为简便、快捷、灵敏地检测废水中偶氮类色素柠檬黄和胭脂红提供了新的方法.     

表面活性剂(十六烷基三甲基溴化铵)辅助合成Bi2MoO6光催化剂协同PMS降解AO7

采用CTAB辅助水热法合成钼酸铋(Bi₂MoO₆,BMO)微球,并将其用于活化过一硫酸盐(PMS),在可见光下降解废水中的偶氮染料金橙Ⅱ(AO7).利用X射线衍射(XRD),傅里叶红外光谱仪(FT-IR),扫描电子显微镜(SEM),X射线能谱(XPS),透射电子显微镜(TEM)和紫外-可见漫反射光谱(UV-vis)对催化剂进行了表征,并通过降解实验测试其催化性能.结果表明,合成的催化剂具有良好的吸附、催化降解AO7的性能.在中性条件下,催化剂投加量0.3 g·L^-1,AO7浓度0.1 mmol·L^-1,PMS浓度1 mmol·L^-1,可以在30 min内完全降解AO7.研究了催化剂含量、pH、共存阴离子等对AO7降解效果的影响.通过自由基消除实验,探索了0.10CTAB-BMO/光/PMS体系中存在的活性物种(h⁺、·O₂^-、¹O₂、·OH和SO₄...     

琼北地区地热水中氟的富集规律

以海南岛的琼北地区地热水为研究对象，对研究区的地热水、地下水和地表水水样进行测试分析，运用piper图、δ²H和δ¹⁸O图、钠碱指数等方法探究琼北地区高氟地热水的富集规律及分布特征.结果表明，地热水氟浓度均超标，平均值高达14.25 mg·L^-1；而地下水和地表水的氟含量未超标，变化范围为0.02—0.44 mg·L^-1.沿海地区到内陆地区地热水氟含量呈现逐渐增大的趋势，内陆地区平均含量高达21.69 mg·L^-1.地热水水化学类型以HCO₃-Na为主，温度、pH和地层中的含氟矿物类型对地热水氟的富集具有重要的影响.地下热水补给来源为现代大气降水，并且存在轻微的“氧漂移”现象，受到一定程度的蒸发浓缩的影响.随着文石、方解石的沉淀反应、络合反应形成的络合物以及Na⁺、K⁺置换出Ca²⁺、Mg²⁺的离子交换反应，地热水中氟浓度不断增大.     

硝酸钙投加频次对污泥生物调理效果的影响

在接种了反硝化菌的剩余污泥中投加硝酸钙药剂,利用反硝化菌消耗NO₃^-进行反硝化作用去除污泥中易生物降解的有机物,利用Ca²⁺的中和、架桥作用,改善污泥的脱水性能.固定NO₃^-总投加浓度为100 mg·g^-1 TS,在6 d的时间内,按1次、2次、3次、6次的投加频次向污泥中投加硝酸钙.结果表明,1次投加对污泥脱水性能的提升最显著,较对照组而言,污泥CST降低了65.0%,SRF降低了73.2%,污泥脱水性能明显改善;投加硝酸钙后,污泥胞外聚合物中蛋白质含量大幅降低,S层、L层蛋白质分别从13.47 mg·L^-1、11.66 mg·L^-1降低至0.52 mg·L^-1、1.43 mg·L^-1;投加硝酸钙的污泥Zeta电位更趋于电中性.研究还发现,一次性投加硝酸钙产生了更多NO₂^-,有利于污泥结合水,即微生物细胞质的释放.释放出的有机碳被反硝化菌用作碳源,又增强了反硝化效果,从而促进了污泥EPS的破坏与降解,从而改善了污泥的脱水性能.     

高效离子色谱脉冲安培法同时测定饮用水中痕量硫化物及氰化物

本文建立同时分析饮用水中痕量硫化物及氰化物方法,优化后的离子色谱条件:Thermo Scientific Dionex IonPac^TM AS7(2 mm×250 mm,Analytical),100 mmol·L^-1 NaOH-250 mmol·L^-1 NaAc为淋洗液,流速0.3 mL·min^-1,柱温30℃,工作电极为Ag金电极,参比电极为Ag/AgCl参比电极,波形:S/CN标准电位波形,检测器箱温控30℃.结果表明,采用该方法、稳定性良好,连续进样5针,RSD均小于0.28%;标曲线性关系良好,R≥0.9992;方法灵敏度高,硫化物0.05μg·L^-1,氰化物0.16μg·L^-1,检测结果准确,加标回收均大于91.2%,故本方法适用于饮用水中硫离子及氰根定量分析.     

Ni foam/Cu电极电催化还原硝酸盐氮

采用恒流电沉积法制备了泡沫镍/铜（Ni foam/Cu）电极.以Ni foam/Cu电极为阴极、Ti/RuO₂-Ir₂O₃电极为阳极构建电解体系,对水中硝酸盐氮进行电催化还原处理.并研究了电解质对总氮和氨氮去除率的影响和电极的稳定性.在一定范围内,增大电解质NaCl的浓度可以提高总氮和氨氮去除率.当NaCl浓度为0.5 g·L^-1时,在电解电流密度为8 mA·cm^-2的条件下对100 mg·L^-1 NO₃^--N溶液进行6次重复电解实验,2.5 h后硝酸盐氮去除率均可以达到94.5%以上.当NaCl浓度为1.25 g·L^-1时,在电解电流密度为8 mA·cm^-2的条件下对100 mg·L^-1 NO₃^--N溶液电解2.5 h,出水中氨氮浓度只有2.90 mg·L^-1,总氮去除率达到79....     

地下水中砷和汞的不同测试方法

本文研究了原子荧光法(AFS)、电感耦合等离子体质谱法(ICP-MS)和电感耦合等离子体发射光谱法(ICP-OES)等3种不同方法检测地下水中的砷和汞.结果表明,地下水中砷汞的3种测试方法在一定的浓度范围内标准曲线线性良好,相关系数均在0.999以上,加标回收率和精密度较好,质控测定结果均在理论值范围内,说明3种方法有很好的准确性和稳定性,分析数据结果可靠. AFS和ICPMS砷检出限分别为0.10μg·L^-1和0.02μg·L^-1,汞检出限分别为0.03μg·L^-1和0.05μg·L^-1,都远低于相关水质标准检出限以及《地下水质量标准》规定的Ⅰ类水限值,完全能够满足地下水测试要求.而ICPOES砷和汞的检出限分别为20μg·L^-1和9.36μg·L^-1,可用于受到污染的地下水样品检测.     

Selective recovery of Cu2+ and Ni2+ from wastewater using bioelectrochemical system

As the bioelectrochemical system, the microbial fuel cell (MFC) and the microbial electrolysis cell (MEC) were developed to selectively recover Cu²⁺ and Ni²⁺ ions from wastewater. The wastewater was treated in the cathode chambers of the system, in which Cu²⁺ and Ni²⁺ ions were removed by using the MFC and the MEC, respectively. At an initial Cu²⁺ concentration of 500 mg·L^-1, removal efficiencies of Cu²⁺ increased from 97.0%±1.8% to 99.0%±0.3% with the initial Ni²⁺ concentrations from 250 to 1000 mg·L^-1, and maximum power densities increased from 3.1±0.5 to 5.4±0.6 W·m^-3. The Ni²⁺ removal mass in the MEC increased from 6.8±0.2 to 20.5±1.5 mg with the increase of Ni²⁺ concentrations. At an initial Ni²⁺ concentration of 500 mg·L^-1, Cu²⁺ removal efficiencies decreased from 99.1%±0.3% to 74.2%±3.8% with the initial Cu²⁺ concentrations from 250 to 1000 mg·L^-1, and maximum power densities increased from 3.0±0.1 to 6.3±1.2 W·m^-3. Subsequently, the Ni²⁺ removal efficiencies decreased from 96.9%±3.1% to 73.3%±5.4%. The results clearly demonstrated the feasibility of selective recovery of Cu²⁺ and Ni²⁺ from the wastewater using the bioelectrochemical system.     

Validation of polymer-based nano-iron oxide in further phosphorus removal from bioeffluent: laboratory and scaledup study

The efficient removal of phosphorous from water is an important but challenging task. In this study, we validated the applicability of a new commercially available nanocomposite adsorbent, i.e., a polymer-based hydrated ferric oxide nanocomposite (HFO-201), for the further removal of phosphorous from the bioeffluent discharged from a municipal wastewater treatment plant, and the operating parameters such as the flow rate, temperature and composition of the regenerants were optimized. Laboratory-scale results indicate that phosphorous in real bioeffluent can be effectively removed from 0.92 mg·L^-1 to<0.5 mg·L^-1 (or even<0.1 mg·L^-1 as desired) by the new adsorbent at a flow rate of 50 bed volume (BV) per hour and treatable volume of 3500–4000 BV per run. Phosphorous removal is independent of the ambient temperature in the range of 15°C–40°C. Moreover, the exhausted HFO-201 can be regenerated by a 2% NaOH+ 5% NaCl binary solution for repeated use without significant capacity loss. A scaled-up study further indicated that even though the initial total phosphorus (TP) was as high as 2 mg·L^-1, it could be reduced to<0.5 mg·L^-1, with a working capacity of 4.4–4.8 g·L^-1 HFO-201. In general, HFO-201 adsorption is a choice method for the efficient removal of phosphate from biotreated waste effluent.     

乌鲁木齐市米东区大气降水的化学特征及来源分析

为研究乌鲁木齐市米东区大气降水中的化学组分特征及来源,对2017-2019年降水中主要离子浓度及来源进行了分析.研究结果显示,米东区2017-2019年降水的雨量加权pH年均值为7.95,雨量加权平均电导率年均值为16.15 mS·m-1,雨量加权平均总离子浓度为72.75-95.89 μeq·L-1,年均浓度为81....     

Upgrade of three municipal wastewater treatment lagoons using a high surface area media

Lagoon-based municipal wastewater treatment plants (WWTPs) are facing difficulties meeting the needs of rapid population growth as well as the more stringent requirements of discharge permits. Three municipal WWTPs were modified using a high surface area media with upgraded fine-bubble aeration systems. Performance data collected showed very promising results in terms of five-day biochemical oxygen demand (BOD₅), ammonia (NH₃) and total suspended solids (TSS) removal. Two-year average ammonia effluents were 4.1 mg·L^-1 for Columbia WWTP, 4 mg·L^-1 for Larchmont WWTP and 2.1 mg·L^-1 for Laurelville WWTP, respectively. Two- year average BOD₅ effluents were 6.8, 4.9 and 2.7 mg·L^-1, and TSS effluents were 15.0, 9.6 and 7.5 mg·L^-1. The systems also showed low fecal coliform (FC) levels in their effluents.     

Effect of different gas releasing methods on anaerobic fermentative hydrogen production in batch cultures

Decreasing hydrogen partial pressure can not only increase the activity of the hydrogen enzyme but also decrease the products inhibition, so it is an appropriate method to enhance the fermentative hydrogen production from anaerobic mixed culture. The effect of biogas release method on anaerobic fermentative hydrogen production in batch culture system was compared, i.e., Owen method with intermediately release, continuous releasing method, and continuous releasing+ CO₂ absorbing. The experimental results showed that, at 35°C, initial pH 7.0 and glucose concentration of 10 g·L^-1, the hydrogen production was only 28 mL when releasing gas by Owen method, while it increased two times when releasing the biogas continuously. The cumulative hydrogen production could reach 155 mL when carbon dioxide in the gas stream was continuously absorbed by 1 mol·L^-1 NaOH. The results showed that acetate was dominated, accounting for 43% in the dissolved fermentation products in Owen method, whereas the butyrate predominated and reached 47%–53% of the total liquid end products when releasing gas continuously. It is concluded that the homoacetogenesis could be suppressed when absorbing CO₂ in the gas phase in fermentative hydrogen production system.     

Adsorption property of direct fast black onto acid-thermal modified sepiolite and optimization of adsorption conditions using Box-Behnken response surface methodology

The adsorption of direct fast black onto acid-thermal modified sepiolite was investigated. Batch adsorption experiments were performed to evaluate the influences of experimental parameters such as initial dye concentration, initial solution pH and adsorbent dosage on the adsorption process. The three-factor and three-level Box-Behnken response surface methodology (RSM) was utilized for modeling and optimization of the adsorption conditions for direct fast black onto the acid-thermal modified sepiolite. The raw sepiolite was converted to acid-thermal modified sepiolite, and changes in the fourier transform infrared spectrum (FTIR) adsorption bands of the sample were noted at 3435 cm^-1 and 1427 cm^-1. The zeolitic water disappeared and the purity of sepiolite was improved by acid-thermal modification. The decolorization rate of direct fast black adsorbed increased from 68.2% to 98.9% on acid-thermal modified sepiolite as the initial solution pH decreased from 10 to 2. When the adsorbent dosage reached to 2.5 g·L^-1, 2.0 g·L^-1, 1.5 g·L^-1 and 1.0 g·L^-1, the decolorization rate was 90.3%, 86.7%, 61.0% and 29.8%, respectively. When initial dye concentration increased from 25 to 200 mg·L^-1, the decolorization rate decreased from 91.9% to 60.0%. The RSM results showed that the interaction between adsorbent dosage and pH to be a significant factor. The optimum conditions were as follows: the adsorbent dosage 1.99 g·L^-1, pH 4.22, and reaction time 5.2 h. Under these conditions, the decolorization rate was 95.1%. The three dimensional fluorescence spectra of direct fast black before and after treatment showed that the direct fast black was almost all adsorbed by the acid-thermal modified sepiolite.     

球磨零价镁/石墨(ZVMg/C)降解水中三氯乙烯

利用机械球磨法制备了零价镁/石墨(ZVMg/C)材料,并将其用于水溶液中三氯乙烯(TCE)的降解.研究通过SEM、BET和XRD等分析手段解析了ZVMg/C的表面形态结构和成分组成;采用正交实验方法优化了ZVMg/C的制备参数,比较了石墨含量对材料性能的影响;并考察了ZVMg/C投加量、溶液初始pH和地下水中常见阴(C...     

阴阳极成对耦合紫外光辅助电催化降解毒死蜱

以空气扩散阴极、纯铂阳极和紫外灯构建了阴阳极成对耦合紫外光辅助电催化的体系,并系统地研究了电流密度、阳极SO42-浓度以及毒死蜱初始浓度对毒死蜱降解效果的影响.结果表明,当阴极/阳极的电流密度为45/450 mA·cm^-2,阳极SO42-浓度为1.0 mol·L^-1,毒死蜱初始浓度为25 mg·L^-1时,反应60 min后毒死蜱降解率可达99%.对阴极产物的红外分析结果表明,毒死蜱降解后结构中的吡啶环和PS被破坏,产生亚硝氮和正磷酸盐,毒性得到减弱.通过对比阴阳极成对耦合紫外光复合体系与阴极耦合紫外光复合体系、阳极耦合紫外光复合体系的电流效率,发现阴阳极成对耦合紫外光复合体系的电流效率是阴极耦合紫外光复合体系的2倍,是阳极耦合紫外光复合体系的4倍.