海藻酸钠造粒酸改凹凸棒石对Sr、Cs吸附效能影响分析

凹凸棒石黏土(凹土)对重金属类污染组分具有较强吸附作用,但受原状凹土固液难以分离的制约,目前尚未应用于实际工程。本文利用海藻酸钠对酸改性凹土进行造粒,通过静态批实验分析了其对Sr和Cs的吸附性能,并利用柱迁移实验分析动态迁移规律。结果表明,Sr和Cs浓度为100 mg/L,投加量为10 g/L时,120 min内达到平衡,造粒后的凹土颗粒对Sr和Cs去除率分别为40.4%和45.9%,造粒作用引起吸附效能低于凹土原土,具有明显负效应;柱实验结果表明,吸附剂用量为10.0 g、流速为10 m L/min时Sr和Cs的去除率达到41.8%和61.5%,随流速增加或降低,去除率均减小。因此,海藻酸钠造粒改性凹土颗粒可作为含Sr和Cs废水处理的备选材料。     

壳聚糖对酸性篮黑B废水的处理研究

采用壳聚糖对酸性蓝黑B模拟废水进行处理,研究了溶液的酸度、吸附时间、溶液的初始浓度和溶液温度等对吸附效率的影响。结果表明,壳聚糖对酸性蓝黑B具有优良的吸附效果,在溶液初始浓度小于400 mg/L,pH=3.5~6,温度约为30~40℃,吸附处理30~40 m in,COD去除率可达90%以上。     

粉煤灰/膨润土颗粒的制备与pb2+吸附实验

以天然钙基膨润土和燃料废弃物粉煤灰为原料,工业淀粉为致孔剂,采用挤出-滚圆技术,制备了粉煤灰/膨润土复合颗粒吸附剂,并用于含Pb~(2+)溶液的吸附。研究了吸附时间、pH、投样量和溶液初始浓度对吸附性能的影响。结果表明,采用挤出-滚圆法制得的复合颗粒吸附剂大小均匀,表面没有裂纹,具有良好的机械强度。吸附实验中,在投样量10.0 g/L,溶液pH为6,吸附时间120 min,溶液初始浓度100 mg/L时,复合颗粒吸附剂对Pb~(2+)的去除率达到97.40%,吸附量为9.74mg/g。热力学实验表明吸附剂对Pb~(2+)的吸附更符合Langmuir吸附等温模型。     

MICP技术联合多孔硅吸附材料对锌铅复合污染土固化/稳定化修复的试验研究

近年来,工业和科技的快速发展使得重金属污染土固化/稳定化的修复研究成为热点。运用微生物诱导碳酸钙沉淀(MICP)技术联合吸附材料对锌铅复合重金属污染土进行固化/稳定化的修复,通过无侧限抗压强度试验、毒性浸出试验,评价处理前后污染土的固化效果与重金属的稳定化效果,结合扫描电镜(SEM)和X射线衍射(XRD)等检测手段,揭示MICP技术处理锌铅重金属污染土的修复机制。研究结果表明,采用MICP技术对锌铅重金属污染土进行固化/稳定化之后,可以有效降低污染土中有害重金属的浸出性。当矿化时间为10d时,试样无侧限抗压强度为942.5k Pa;铅的浸出浓度为4.20mg/L,比未处理时降低了44.81%;锌的浸出浓度为4.31mg/L,比未处理时降低了46.19%,效果显著。在此基础上,添加10%的多孔硅吸附材料后,试样无侧限抗压强度可达到1 021 kPa,强度提高了8.3%;铅的浸出浓度为2.45mg/L,与未经处理时相比,降幅达到了67.81%,与单纯MICP方法处理时相比,铅浸出浓度被二次降低了41.67%;锌的浸出浓度仅为2.93 mg/L,与未经处理时相比,降幅达到了63.4%,与单纯...     

广西某些花岗岩型铅锌矿采矿废水石灰-混凝法处理研究

广西某些花岗岩型铅锌矿床采矿废水水质分析表明,pH值为3.8～7.65;SS(悬浮物)为11～158mg/L;Cu为0.004～1.52mg/L;Pb为0.05～0.95mg/L;Zn为0.144～68.2mg/L;Cd为0.0050～5mg/L;Hg和As含量很低。模拟废水水质投加石灰水和聚合氯化铝,铅锌有明显去除作用,将采矿废水净化工艺流程应用到铅锌矿采矿废水治理工程,外排水可达到《铅、锌工业污染物排放标准》(GB 25466-2010)中水污染物排放浓度限值要求,表明石灰-混凝法可以处理pH值和重金属含量变化较宽的酸性矿山废水。     

重金属离子在胡敏酸-高岭石复合体上的吸附

本文研究了胡敏酸存在下高岭石对重金属离子的吸附行为。实验结果表明:①胡敏酸和Cu2 溶液按先后顺序或同时加入高岭石中反应,在Cu2 平衡浓度<10mg/L时,3种加入顺序对Cu2 的吸附量基本相同,当Cu2 平衡浓度>10mg/L时,(K Cu) HA和(K Cu HA)两种加入顺序对Cu2 的吸附量比(K HA) Cu的略大。②在pH=5时,胡敏酸-高岭石复合体对Cu2 的吸附量明显大于纯高岭石。这是由于胡敏酸含有大量的羧基和酚羟基等活性基团,吸附在高岭石上的胡敏酸增加了其表面吸附位,在复合体表面形成了S—HA—Cu三元配合物,且Cu2 的吸附量与复合体中胡敏酸的含量在一定范围内成正相关;③溶液pH值在4～7之间变化可调控复合体对Cu2 的吸附机制。④在Cu2 和Cd2 共存时,随着金属离子初始浓度的增大,Cu2 的吸附量呈直线上升,而Cd2 的吸附量增加缓慢,表明复合体对Cu2 的吸附能力比对Cd2 强。     

磷钨酸铵-海藻酸钙复合吸附剂分离铷钾工艺研究

铷作为稀有碱金属具有重大的经济战略意义。卤水中含有大量的铷资源,由于铷与大量与其物理化学性质非常接近的钾共存造成铷分离提取技术难度极大。采用磷钨酸铵-海藻酸钙AWP-CaALG球形复合吸附剂进行卤水中铷钾分离,通过动态吸附实验考察吸附剂的重复性能、流速、高径比、洗脱液浓度等吸附工艺条件对铷钾分离效果的影响。结果表明:在优化的动态吸附条件(流速=2.06BV/h,高径比=6.66)下,对CRb+=1.0g/L,CK+=10g/L,pH=1的溶液进行动态吸附,吸附剂对Rb+的吸附容量为16.34×10-3,穿透体积为7.86BV。以1 mol/L HCl~0.005 mol/L NH4Cl溶液和1 mol/L HCl~0.5mol/L NH4Cl溶液进行梯度洗脱,可得CK+=12.07 mg/L,CRb+=513.84mg/L的富集液,其中RbCl的纯度为96.93%。     

凹凸棒石缓释钾肥的制备及缓释效果研究

以凹凸棒石为缓释载体,研究凹凸棒石缓释钾肥的制备条件,并以其吸附时间、K+初始浓度与吸附量的关系,确定K+吸附量最大时的K+初始浓度缓释效果。用pH=5的HCl溶液和(Ca2++Mg2+)浓度为1.6mmol/L,3.2mmol/L,6.4mmol/L,12.8mmol/L,19.2mmol/L,25.6mmol/L的混合溶液对凹凸棒石缓释肥进行解吸。结果表明:凹凸棒石对K+的吸附量在30min内达到平衡,单位质量凹凸棒石对K+的最大吸附量为13.97×10-3;pH=5的HCl溶液对K+的解吸率最小,随解吸溶液中(Ca2++Mg2+)浓度增加,解吸率增大,凹凸棒石对K+的解吸过程符合Elovich方程,解吸速率远小于吸附速率;以pH=5的HCl溶液对凹凸棒石缓释钾肥进行动态解吸和静态解吸实验,动态解吸得出的解吸率较静态解吸的解吸率低,解吸液为450ml时,动态解吸和静态解吸的解吸率分别为35.5%和50.3%,前者能更真实地反应凹凸棒石缓释钾肥的缓释效果;该凹凸棒石是钾肥良好的缓释载体。     

尉犁蛭石矿的工业蛭石对铵和重金属离子的吸附

对采自新疆尉犁蛭石矿的工业蛭石样品进行了矿物学、铵饱和吸附和吸附重金属离子Cu2 、Pb2 和Zn2 的试验研究。在工业蛭石样品矿物学特征研究基础上,研究了样品铵饱和吸附量和影响工业蛭石样品对Cu2 、Pb2 和Zn2 吸附的因素。结果表明,样品对铵的饱和吸附量可达56.02~98.42mmol/100g;对重金属离子的吸附,在30~60min内吸附达到平衡,溶液的pH值和浓度对样品的吸附量也具有重要的影响。工业蛭石对不同重金属离子的吸附能力在低浓度溶液中几乎是相同的,但在高浓度溶液中的吸附能力顺序大小为:Zn2 >Cu2 >Pb2 。研究结果对于工业蛭石用于处理…     

高岭土吸附剂去除含锰废水中锰离子的实验研究

高岭土吸附剂处理含锰废水中锰离子的实验表明:高岭土的最佳粒度为0.177 mm,pH值控制在7.5～ 8.5间,常温搅拌30 min,吸附剂与水量比为12 g∶1 L,对锰离子质量浓度为100 mg/L的废水的处理效果最好,使锰离子质量浓度由100 mg/L降至0.1 mg/L,锰离子的去除率超过90%,达到GB8978-1996工业废水排放的一级标准.高岭土对锰离子吸附的等温吸附曲线符合Freundlich模型,其吸附机理主要是吸附作用和沉淀作用.     

多壁碳纳米管固相萃取快速检测水样中铅镉铜铁

传统的固相萃取填料应用于环境样品的重金属处理过程中,存在pH不稳定和不同极性萃取物共同萃取较为困难等方面的不足,因此寻找新型固相萃取填料显得尤为重要。本文采用多壁碳纳米管填充固相萃取柱,萃取水中金属元素铅、镉、铜和铁,采用石墨炉原子吸收光谱法测定铅和镉,电感耦合等离子体发射光谱法测定铜和铁。实验考察了多壁碳纳米管的性质、溶液pH值、洗脱溶液、样品流速以及基体效应对测定结果的影响。结果显示:溶液pH=9,1 mol/L硝酸为洗脱溶液,样品流速为2 mL/min时,外径8 nm未修饰的多壁碳纳米管有较好的萃取效率,对溶液中铅、镉、铜和铁的最大吸附容量分别为44.91、42.31、54.68和49.07 mg/g,四种元素的吸附容量均衡;钾、钠、钙、镁离子以及苯和甲苯等基质对四种金属元素的萃取影响不大。方法回收率为95.3%~99.5%,精密度(RSD,n=7)为1.2%~3.2%。本方法采用外径8 nm的多壁碳纳米管固相萃取,与传统萃取方法相比,富集效果好、回收率较高,而且操作简便、准确度高;与前人采用外径20~30 nm的多壁碳纳米管的性能相比,镉和铜的吸附容量更高,还可实现对铁的吸附,且铅、镉、铜和铁四种元素的吸附容量均衡,更适合用于检测水样中的金属元素。     

膜蒸馏处理糠醛废水的实验研究

采用中空纤维膜蒸馏技术研究了糠醛废水的膜蒸馏处理效果,考察了料液相的温度、醋酸浓度、流速、吸收液浓度等因素对处理效果的影响。结果表明：在温差为15℃、料液的浓度为0.306 mol/mL时,速度为8 mL/min;吸收液的质量浓度为25 g/L时,速度为3 mL/min。运行12 h后,料液的pH值由开始的1.9升高为5.1,醋酸的去除率为76.3％,糠醛的去除率为40.1％。此过程可降低料液中糠醛和醋酸的含量,减小了低分子量有机酸对微生物危害的影响,为后续生物处理奠定了基础。     

共存重金属离子对针铁矿活化过硫酸盐去除水中磺胺吡啶的影响

基于硫酸根自由基的高级氧化技术能有效降解水中磺胺类药物残留。由于在自然环境中共存重金属会对环境修复效果产生一定影响,文中重点研究了不同pH环境条件下不同重金属离子对针铁矿活化过硫酸盐(PS)去除水中磺胺吡啶(SPY)的影响。不同类型重金属离子(Cu^2+、Pb^2+、Cd^2+,0.2mmol/L)在反应体系(初始条件:针铁矿,1.0g/L;PS,4mmol/L;SPY,10mg/L;pH=8.2)中对SPY的降解对比研究发现:在无重金属共存的条件下,针铁矿/PS体系降解SPY的去除率为25.2%;Pb^2+和Cd^2+对针铁矿/PS体系的影响较弱,去除率分别为30.8%和34.8%;Cu^2+的促进作用很大,可以使SPY被完全降解(100%)。机理分析认为,在针铁矿/PS体系中Pb^2+和Cd^2+主要通过影响吸附作用导致磺胺吡啶被去除,而Cu^2+主要通过自身活化PS的作用。不同pH条件(3.0,8.0,12.0)实验证实弱碱性条件下,Cu^2+/针铁矿/PS能够发挥较高的活性从而降解SPY。本文结果为采用针铁矿活化过硫酸盐技术修复类似复合污染地下水环境提供了实验依据。     

Removal of Cu(Ⅱ) from Wastewater Using Acidified Sewage Sludge Ash

Sewage sludge ash (SSA), the waste generated in sewage sludge incineration, was obtained from Wuhan Sewage Treatment Plant and used as a low-cost sorbent for removing Cu(Ⅱ) from wastewaters. The sorbent was first modified with 5 % sulfuric acid to increase its sorption capacity. The specific surface area, porosity, cation-exchange capacity (CEC) and pHZPC of the sorbent were measured. Batch experiments were made to study the effect of contact time, solution pH value and temperature on sorption. Both Langmuir and Freundlich models well described the Cu(Ⅱ) sorption process, with correlation coefficient (R2) values of 0.993 4 and 0.989 9 respectively. And the sorption process follows the Lagergren first order kinetic model. The equilibrium sorption capacity of acidified SSA to Cu(Ⅱ) is estimated to be 7.78 mg/g under optimal conditions.     

Comparison of Cu,Zn and Fe bioleaching from Cu-metallurgical slags in the presence of Pseudomonas fluorescens and Acidithiobacillus thiooxidans

Metal leaching from metallurgical wastes (slags) by means of environmentally friendly approaches is promising for practical applications. The goal of this study was to compare the feasibility of metal bioleaching from Cu slags by means of Pseudomonas fluorescens and Acidithiobacillus thiooxidans. Two size particles (<0.3 mm and 1–2 mm) of two types of Cu slags (massive crystalline slag and granulated amorphous slag) were used to study metal (Cu, Zn and Fe) bioleaching. The 40-days bioleaching experiments with P. fluorescens began at circumneutral pH (7.0), whereas the experiments with A. thiooxidans were started under acidic (pH 2.5) conditions. The results demonstrated that A. thiooxidans catalyzes metal leaching from both slag types investigated. After 21 days of incubation, optimal leaching was achieved and up to 79% Cu, 76% Zn and 45% Fe could be extracted from crystalline slag under conditions of 1 wt.% pulp density and particle size <0.3 mm. The optimal efficiency achieved with amorphous slag was 81% Cu, 79% Zn and 22% Fe when 1% pulp density and 1–2 mm particle size were used. The use of P. fluorescens resulted in poor leaching efficiencies as compared to the performance of A. thiooxidans, presumably due to the higher pH conditions maintained during the P. fluorescens incubations. The maximum metal leaching efficiencies with P. fluorescens were achieved at 1% pulp density and particle size <0.3 mm and did not exceed 10% Cu, 4% Zn, 0.3% Fe for crystalline slag and 4% Cu, 3% Zn, 0.7% Fe for amorphous slag. Both slags exhibited a good potential for bioleaching with A. thiooxidans, however; further optimization of the process parameters (e.g. pulp density, particle size and pH) is needed to improve the efficiency.     

Impact of river damming on sediment texture and trace metals distribution along the watershed and the coastal zone of Nestos River (NE Greece)

This study examines the sediment particle size distribution and the trace metal concentrations from a dammed-river watershed (Nestos River) to its deltaic zone in NE Greece. The study area is relatively unpolluted. The distribution of trace metals (Cu, Cr, Cd, Ni, Pb, Hg) in sediments throughout the catchment area showed selective “trapping” of certain elements behind the two artificial dams (Thissavros and Platanovrisi dams) in the watershed and a sudden reduction downstream (83% for Cd, 81% for Cr, 94% for Cu, 90% for Ni, 86% for Hg and 33% for Pb). Marked sediment particle separation is observed at the upstream dam (Thissavros), where coarse material including sand is trapped (coarse fraction 12.9–49.3%). Fine-grained material (<63 μm) is trapped behind the Platanovrisi dam (68.1%), and the reservoir showed elevated metal concentrations, especially for Cu and Cd (16.3 and 0.5 μg/g, respectively). Lead exhibited a homogenous distribution throughout the watershed (20.1–32.3 μg/g). All other trace metals (Cu, Cr, Cd, Ni and Hg) decline sharply downstream of the dam complex. In the delta system, nearshore sediments consist of shallow deposits in the vicinity of river mouth and are enriched in Cr (4.4–53.0 μg/g) and Ni (2.6–44.3 μg/g), while the further offshore and slightly deeper (20–40 m) sediments illustrate elevated Hg (0–0.07 μg/g), Cd (0.09–0.18 μg/g), Cu (11.5–18.3 μg/g) and Ni (38–54.5 μg/g).     

The potential use of serpentinite in the passive treatment of acid mine drainage: batch experiments

The efficiency of serpentinite as an alternative alkalinity generating material for the passive treatment of acid mine drainage (AMD) was assessed in the laboratory. Three series of batch experiments were designed for the passive treatment of a low pH (1.6) AMD synthetic solution containing 2,500 ppm Fe²⁺, 6,600 ppm SO₄^2–, 10.5 ppm Al, 15 ppm Ni, and traces of Cr, Mn and Cu. The influencing factors studied were: the effect of water/rock ratio, residence time, type of the alkalinity generating material (dolomite, magnesite, marble, serpentinite), and nature of the system (open vs. closed cells). The variations in solution chemistry observed in the open cells indicate that a lower water/rock ratio (0.33 ml/g) was the most efficient for metals removal. The optimal residence time in open cells was 24 h to reach the higher pH values. In the closed cells laboratory setup, synthetic AMD was placed in contact with the various alkaline materials for three different contact times (24, 48, 72 h). The optimal pH was reached after 48 h and did not change appreciably for longer contact time, and the best results for metal removals were obtained with marble and serpentinite. Single treatment efficiency was compared with a successive treatment approach. The most promising results were obtained with a five step treatment: (1) pre-treatment in a closed cell using serpentinite, (2) aeration and settling, (3) treatment in an open cell using marble, (4) final aeration and settling, and (5) filtration with a coarse silica sand. With this configuration, the final pH was 6.5 and pronounced metals depletion was achieved (100% for Al, 99.95% for Fe, 85.7% for Ni).     

Temporal variability of trace metals in new jersey pinelands streams: relationships to discharge and pH

Dissolved and particulate trace metal (Al, Cd, Cu, Pb, and Zn) concentrations were determined over a 21 month time period at four streamwater sites in the Pinelands (New Jersey, USA), a coastal plain region characterized by low-pH waters and highly weathered soils. Al and Zn were also determined at two sites over a 5 day period following a major precipitation event. In the Batsto River (pH 4.4–6.3), a representative Pinelands stream draining a largely forested watershed moderately impacted by agriculture, discharge-weighted mean concentrations of dissolved metals were (in nM): Al = 4610; Cd = 0.39; Cu = 4.6; Pb = 1.0; and Zn = 149. Dissolved Cd, Cu, and Zn in the undeveloped Bass River (pH 4.1–4.8) are in a similar range, but Pb concentration is 2–3 times greater. Dissolved metals show highly significant positive correlations to discharge, and weaker inverse relationships to pH over both the long- and short-term time series. Overall, seasonal and short-term variability in dissolved metal concentrations is most consistent with control by hydrologic flow path changes during high discharge, when shallow groundwaters mobilize anthropogenic metals stored in near-surface soil horizons and bypass potential metal removal processes in bordering wetlands. The data also suggest that in-stream metal removal driven by summertime biological productivity may further reduce low-discharge metal concentrations, as a secondary effect. For these metals, the particulate fraction is generally minor, and variations in solution/particle partitioning are unimportant to spatial/temporal variations dissolved concentrations, except for Pb. Estimates of atmospheric input can account for riverine fluxes of these metals, and suggest that Zn retention is minimal in this system, while Pb, Cu and Cd are more strongly retained. The positive relationship between discharge and metals concentration, and the unusually high concentrations in Pinelands streams compared to other world rivers, suggest that riverine effects on metals distributions in the estuary and nearby coastal ocean will be measurable and strongly seasonal.     

膜蒸馏处理乳化油废水的实验研究

采用自制的中空纤维膜蒸馏组件对模拟的乳化油废水进行膜蒸馏处理研究, 分析了料液的浓度、流速、温度和处理时间等因素对膜通量及去除率的影响。实验结果表明: 在料液温度为50℃、流速为14 mL /min、乳化油浓度为500 mg/L 的条件下, 运行1 h后乳化油膜通量为21.20 g/m2 ·h, 去除率> 70%; 运行5 h后膜通量下降为5.141 g/m2 ·h, 去除率> 90%。     

颗粒炭动态吸附含Cu－EDTA电镀废水的研究

本文采用颗粒状活性炭，动态吸附处理含Ｃｕ－ＥＤＴＡ电镀废水，对动态法的工艺条件进行了系统研究．最佳工艺条件为：炭粒颗粒度８０～１００目，ｑＨ＝５．５，吸附等温方程式为ｑ＝１９．０Ｃ０．２５９，吸附容量（１５０～２００ｍｌ废水）／ｇ活性炭，过滤速率为１２ｍｌ／ｍｉｎ．结果表明，该方法具有处理效果好，易于扩大应用的优点．