废弃茶叶对水中Zn~(2+)、Cd~(2+)、Cu~(2+)的吸附研究

通过废弃茶叶对水溶液中的Zn2+、Cd2+、Cu2+的吸附实验,讨论了影响茶叶末吸附重金属的初始浓度、吸附时间、pH等影响因素。结果表明,在30 min内,废弃茶叶末对Zn2+、Cd2+、Cu2+3种金属离子的吸附达到最大,最佳pH因金属的不同而有所差异。处理单组分金属离子水溶液时,3种离子的吸附量和吸附率的大小顺序均为Cu2+Cd2+Zn2+。而处理3种金属离子的多组分溶液时,其吸附量和吸附率的顺序则为Cd2+Cu2+Zn2+。     

利用剩余污泥吸附重金属离子铜、锌、镉的研究

利用剩余污泥对Cu2+、Zn2+、Cd2+三种重金属离子进行吸附研究,考察了pH、吸附时间、污泥投加量、温度等对吸附过程的影响;并探讨了吸附处理过程中三种重金属离子的等温吸附特性,以及吸附数据的线性拟合方程。实验结果表明,剩余污泥对Cu2+、Zn2+、Cd2+三种重金属离子具有良好的吸附效果,在优化条件下,三种重金属离子去除率分别达到94.3%、70.5%和81%;三种重金属离子的吸附等温线均与Langmuir方程吻合较好,吸附能力大小顺序为Cu2+Cd2+Zn2+。     

聚丙烯酸/丙烯酰胺高吸水性树脂吸附性能

用反相悬浮聚合法合成了聚丙烯酸/丙烯酰胺高吸水性树脂(PAAAM),讨论了其吸附CuCl₂、NiCl₂、CoCl₂溶液中金属离子的性能,考察了溶液pH值和初始浓度对金属离子吸附的影响。结果表明,PAAAM在不同pH值及浓度区间,对金属离子的吸附能力有较大差异,可被用于Cu(II)、Ni(II)、Co(II)的分离。同时还探讨了PAAAM在混合金属离子溶液中的吸附性能及反复利用的可能性,发现在混合溶液中PAAAM表现出对Cu（II）有较好的选择性吸附能力;4次循环后对Cu(II)、Ni(II)、Co(II) 离子的吸附量为最大吸附量的80%以上,重复使用效果理想。     

磺酸萜烯树脂的合成及对金属离子吸附研究

研究了磺酸萜烯树脂的合成方法。用红外光谱对合成树脂进行了表征 ,测试了合成树脂的离子交换容量 ,及对多种金属离子的吸附性能。结果显示合成树脂能与Co2 + 、Pb2 + 、Cu2 + 、Fe3 + 等金属离子络合 ,能用于金属离子的吸附分离     

木粉基吸附剂的制备及性能研究

制备并研究了木粉基重金属离子吸附剂对金属离子的吸附性能.结果表明,吸附剂对Pb2 、AS 、Cu2 、Mn2 4种离子的饱和吸附容量分别达89.46、73.92、22.25 mg/g和21.8 mg/g,是木粉接枝共聚前吸附容量的4～10倍.吸附剂对所研究的金属离子的吸附特征可用Freundlich方程近似描述.找到了Pb2 、Ag 、Cu2 、Mn2 适宜吸附的pH范围,再生实验表明吸附剂经3次再生之后仍保持较高的吸附容量.     

壳聚糖为基质的染料亲和吸附剂对重金属离子的吸附平衡及动力学研究

以反相悬浮交联法制备了壳聚糖微球载体,并偶联染料配体(CibacronBlueF3GA),制得了新型染料亲和吸附剂。研究了吸附剂与金属离子Cu2 、Pb2 、Cd2 之间的吸附行为。结果表明,在较高的初始金属离子浓度(200￣500mg·L-1)下,金属离子在吸附剂中的平衡吸附过程较好地符合Langmiur吸附等温式,吸附剂对Cu2 、Pb2 、Cd2 的最大吸附量分别为92.12、115.40、39.78mg·g-1;吸附动力学可用拟二级速率方程来描述,计算值与实测值吻合甚好;吸附剂对各重金属离子的吸附选择性依次为:Pb2 >Cu2 >Cd2 。     

RPFC纤维处理金属离子电镀废水

为了开发新型高效多功能吸附剂,制备了RPFC离子交换螯合纤维,探讨了RPFC纤维的吸附再生特性及对金属离子电镀废水的处理效果.结果表明,RPFC纤维能吸附电镀废水中的含碳、氮有机物及阴阳离子无机物,对金属离子的吸附能力是Cu2 Ni2 ,吸附是多样性的;其吸附效果明显,吸附能力较强,吸附容量大;纤维的再生效果理想,再生频率高.     

新型淀粉基微球对Cu~(2+)、Pb~(2+)吸附性能的研究

研究了新型淀粉基微球对Cu2+、Pb2+的吸附性能,结果表明,淀粉基微球对Cu2+的吸附能力强于Pb2+,对Cu2+、Pb2+的吸附率可达到85%以上,是一种有效处理重金属离子废水的处理剂。     

一种高吸水树脂对电镀废水中铜离子的吸附研究

以废弃聚乙烯(PE)塑料与具有亲水性基团的丙烯酸(AA)及其盐接枝共聚合成一种高吸水性树脂,并将所得高吸水树脂用于溶液中Cu2+的吸附。通过分光光度法研究了树脂去除水溶液中Cu2+的情况,考察了起始pH、树脂用量、金属离子起始浓度和吸附时间对金属离子去除率的影响。结果表明,该树脂对Cu2+具有较强的吸附性能。树脂初期吸附速率大,吸附达到平衡时的接触时间为30 min。当溶液pH为7.0,Cu2+初始浓度为25 mg/L,树脂用量在8 g/L时,树脂对Cu2+的去除率可达95.0%以上。     

淀粉基炭的制备及其对重金属离子的吸附性能

通过不完全炭化淀粉制备出无定形淀粉基炭材料,用X射线粉末衍射,TGA-DSC,红外光谱和比表面积测定对其进行了表征;研究了淀粉基炭对Cu2+,Pb2+,Cd2+,Zn2+的吸附性能,考察了淀粉基炭投加量、pH、温度和金属离子初始质量浓度对吸附效果的影响。金属离子的去除率随着淀粉基炭投加量的增加而上升,各种金属离子的最佳吸附pH分别为7.0(Cu2+),6.0(Pb2+),8.0(Cd2+),8.0(Zn2+)。温度越高越有利于吸附,吸附行为符合Langmuir等温吸附方程。     

松果对废水中Cu~(2+)、Pb~(2+)、Zn~(2+)的吸附特性研究

以松果作为吸附剂进行了去除废水中Cu2+、Pb2+、Zn2+的吸附及解吸试验,研究了溶液pH值、吸附剂投加量、反应时间、溶液初始浓度对吸附效果的影响,以及不同pH值对达到吸附平衡的松果的解吸影响。结果表明:当pH值为5.0～5.5,Cu2+、Pb2+、Zn2+初始质量浓度约为25 mg/L时,吸附剂的最佳投加量分别为3、1.5、3 g/L,去除率分别为55.32%、86%、39.96%。3种重金属离子的吸附动力学方程符合Lagergren准二级动力学方程,R2均大于0.998。等温吸附研究表明:Freundlich方程能较好地描述Cu2+的等温吸附过程,Langmuir方程则能更好地描述Pb2+和Zn2+的吸附过程,用Langmuir方程拟合等温吸附数据得出松果对Cu2+、Pb2+、Zn2+的最大吸附量分别为9.10、31.65和9.60 mg/g。强酸是一种理想的Cu2+和Zn2+解吸剂。     

颗粒赤泥吸附剂对重金属离子的吸附性能研究

以氧化铝生产产生的工业固废——赤泥为原料,采用生石灰熟化后煅烧造粒方法,制备了颗粒状赤泥吸附材料。将制得的吸附材料用于水体中Cu2+、Pb2+、Cd2+的去除。研究了吸附时间、溶液pH值、吸附剂投加量对吸附效果的影响,在吸附作用时间、pH值、投加量相同的情况下,颗粒赤泥对3种金属离子的去除效果的大小顺序为Pb2+、Cd2+、Cu2+。颗粒赤泥吸附材料对3种金属离子的等温吸附规律可分别用Langmuir等温式、Langmuir等温式和Freundlich等温式较好地进行描述。颗粒赤泥吸附剂对3种重金属离子吸附饱和容量大,达平衡时间短,具较好的吸附性能。     

重金属离子在泥煤中的饱和吸附容量与离子结构之间的关系

以泥煤泥炭为吸附剂进行了N i2 ,Cu2 ,Cd2 ,Ce4 ,Eu3 ,Dy3 ,Lu3 的吸附实验,选用极化指数、共价指数与吸附指数来表征重金属离子结构差异。聚类分析可将7种重金属离子分为5类,较好的Langmuir等温吸附方程拟合后计算得到饱和吸附容量由大到小排列顺序为:Cu2 >N i2 >Cd2 >Lu3 >Ce4 >Dy3 >Eu3 ,吸附指数与饱和吸附容量具有很好地线性关系,建立了泥煤对重金属的饱和吸附容量与重金属吸附指数之间的模型关系。     

钠基膨润土对重金属离子的吸附特征

探讨了在不同振荡时间、不同溶液重金属离子浓度、不同矿物颗粒细度和不同pH值条件下,钠基膨润土对Cu2+、Zn2+和Cd2+的吸附效果,讨论了钠基膨润土对重金属离子吸附的影响因素。结果表明:重金属离子在钠基膨润土表面的吸附是个迅速的过程,钠基膨润土对重金属的吸附在10 min内即可达最大值。钠基膨润土不同颗粒细度对重金属离子的去除率有所不同,但并非颗粒越细吸附量越大。就试验的3种重金属离子而言,钠基膨润土对其吸附效果均很好。较高的pH值有助于钠基膨润土对溶液中重金属离子的吸附,但考虑到实际操作的其它因素,不能把pH值调得过高。     

Synthesis of 1,4,8,11‐tetraazacyclotetradecane monomer by addition of acryloyl chloride and its polymer for specific transition metal binding

1,4,8,11‐Tetraazacyclotetradecane (cyclam) was reacted with acryloyl chloride in a 1 : 2 molar ratio in dichloromethane in the presence of pyridine at 0°C. The modified cyclam was polymerized by adding an azobisisobutyronitrile initiator and irradiated with a UV lamp under reflux for 6 h. Precipitated cyclam containing polymer in the bulk structure was removed from the suspension by filtration. After washing and drying the final polymeric materials were used for transition metal ion adsorption and desorption studies. A Fourier transform IR spectrophotometer and thermogravimetric analyzer were used to characterize the polymeric structure. The affinity of the polymeric material for transition metal ions was used to test the adsorption–desorption of selected ions [Cu(II), Ni(II), Co(II), Cd(II), Pb(II)] from aqueous media containing different amounts of these metal ions (5–800 ppm) at different pH values (2.0–8.0). It was found that the adsorption rates were high and the adsorption equilibrium was reached in about 30 min. The uptake of the transition metal ions onto the polymer from solutions containing a single metal ion was 3.17 mmol/g for Cu(II), 0.98 mmol/g for Cd(II), 0.79 mmol/g for Co(II), 0.78 mmol/g for Ni(II), and 0.32 mmol/g for Pb(II). This polymer showed high affinity for Cu(II) compared to the other metal ions in the single ion solution and in the mixture of transition metal ions. The affinity order of the transition metal ions was Cu(II) ? Ni(II) > Cd(II) > Co(II) > Pb(II) for competitive adsorption. More than 95% of the adsorbed transition metal ions were desorbed in 2 h in a desorption medium containing 1.0M HNO₃. Poly(cyclam) was found to be suitable for repeated use of more than five cycles without a noticeable loss of adsorption capacity. © 2002 Wiley Periodicals, Inc. J Appl Polym Sci 83: 1406–1414, 2002     

壳聚糖/纤维素复合微球对Cu2+的吸附

制备壳聚糖/纤维素(CS/CE)和交联壳聚糖/纤维素(ECS/CE)复合微球,用于吸附重金属离子,考察了微球对Cu2+的吸附性能。溶解性测试表明交联反应可提高微球在酸性介质中的化学稳定性。静态吸附表明,CS/CE和ECS/CE均能有效吸附Cu2+,pH 6附近吸附容量最大。吸附等温线与Langmuir和Freundlich模型均吻合,由Lang-muir模型得到的Cu2+饱和吸附容量分别为38.76 mg/g(CS/CE)和34.13 mg/g(ECS/CE)。CS/CE和ECS/CE对Cu2+的吸附初期为内扩散控制,但后期为配合反应控制。FTIR和X-射线光电子能谱(XPS)分析表明,壳聚糖中的N为Cu2+的主要吸附位,发生表面配合吸附。     

Adsorption of Cu2+ ions with poly(N‐isopropylacrylamide‐co‐methacrylic acid) micro/nanoparticles

Chelation efficiency of stimuli‐responsive poly(N‐iospropylacrylamide‐co‐methyacrylic acid) (PNIPAAm‐MAA) nanoparticles with Cu²⁺ ions from CuSO₄·5H₂O solution and from wood treated with copper‐based preservatives was studied. It was shown that particle size played a very important role in the adsorption process. The nano‐scale particles showed much improved Cu ion adsorption efficiency, compared with the micro hydrogels. The amount of Cu ion adsorption increased with increase of MAA ratio in copolymers and adsorption efficiency decreased with increased particle size. Furthermore, the adsorption amount varied with adsorption temperature at temperatures both below and above the corresponding low critical solution temperature (LCST). The high adsorption efficiency of Cu ions by PNIPAAm‐MAA polymer particles provides an effective technique for recovering metal ions (e.g., Cu²⁺) from wood treated with metal‐based preservatives. © 2008 Wiley Periodicals, Inc. J Appl Polym Sci, 2008     

Heavy metals uptake from aqueous solutions and industrial wastewaters by humic acid-immobilized polymer/bentonite composite: Kinetics and equilibrium modeling

This study explored the feasibility of utilizing a novel adsorbent, humic acid-immobilized-amine-modified polyacrylamide/bentonite composite (HA-Am-PAA-B) for the adsorption of Cu(II), Zn(II) and Co(II) ions from aqueous solutions. The FTIR and XRD analyses were done to characterize the adsorbent material. The effects of pH, contact time, initial adsorbate concentration, ionic strength and adsorbent dose on adsorption of metal ions were investigated using batch adsorption experiments. The optimum pH for Cu(II), Zn(II) and Co(II) adsorption was observed at 5.0, 9.0 and 8.0, respectively. The mechanism for the removal of metal ions by HA-Am-PAA-B was based on ion exchange and complexation reactions. Metal removal by HA-Am-PAA-B followed a pseudo-second-order kinetics and equilibrium was achieved within 120 min. The suitability of Langmuir, Freundlich and Dubinin-Radushkevich adsorption models to the equilibrium data was investigated. The adsorption was well described by the Langmuir isotherm model. The maximum monolayer adsorption capacity was 106.2, 96.1 and 52.9 mg g^?1 for Cu(II), Zn(II) and Co(II) ions, respectively, at 30 °C. The efficiency of HA-Am-PAA-B in removing metal ions from different industry wastewaters was tested. Adsorbed metal ions were desorbed effectively (97.7 for Cu(II), 98.5 for Zn(II) and 99.2% for Co(II)) by 0.1 M HCl. The reusability of the HA-Am-PAA-B for several cycles was also demonstrated.     

Heavy metals adsorption on some iminodiacetate chelating resins as a function of the adsorption parameters

The adsorption properties of some novel chelating resins (CRs) bearing iminodiacetate groups for removal of heavy metal ions like: Cu(II), Co(II) and Ni(II) from aqueous solutions comparative with the commercial resin Amberlite IRC-748 have been studied in this work by a batch equilibrium technique. Quantitative analysis for adsorption was conducted using UV–vis spectroscopy to investigate the kinetics, adsorption isotherm and thermodynamics of the removal process considering equilibration time, pH, metal ion concentration and temperature as controlling parameters. The metal adsorption capacities, at pH 5, were in the order Cu(II) > Ni(II) > Co(II), for both the CR with 10 wt.% DVB (CR-10) and the commercial resin Amberlite IRC-748. The adsorption capacities on CR-10 were higher for Ni(II) and Co(II) ions, but lower for Cu(II) ions compared with Amberlite IRC-748. Both Freundlich and Langmuir isotherms well fitted on the adsorption results of Cu(II), Ni(II) and Co(II) ions on all iminodiacetate resins.