壳聚糖处理印染废水的研究

在不同的壳聚糖浓度、pH和温度条件下，采用分光光度法测得吸附后染料的浓度，得到了壳聚糖对染料的最佳吸附条件，结果为：壳聚糖的投入量在红3B为2％，兰2BG和黄3GE为3％时，pH8．4在碱性范围内，温度为50℃效果最佳。其结果将为壳聚糖在印染废水处理提供一定的理论基础。     

壳聚糖对废水中蛋白质的吸附作用

在不同的蛋白质浓度、壳聚糖浓度、吸附时间、温度及pH值条件下,采用Bradford染色法测得吸附后蛋白质浓度,得到了壳聚糖对蛋白质的最佳吸附条件,其结果将为壳聚糖在工业废水处理中的应用提供一定的理论基础.     

不同分子量壳聚糖锌配合物对尿素的吸附行为研究

研究了壳聚糖-Zn配合物对尿素的吸附行为和壳聚糖分子量对尿素吸附性能的影响.正交试验结果表明,壳聚糖-Zn对尿素的吸附最佳组合为A<,5>B<,4>C<,3>D<,4>,即尿素溶液的初始浓度为3.5mg/mL,反应温度为55℃,pH值为4.5,反应时间为7h时,壳聚糖-Zn对尿素的吸附量达到最大值260.414mg/g.在同一条件下,壳聚糖分子量对壳聚糖-Zn吸附尿素能力影响的大小顺序为50kDa＞10kDa＞5kDa.     

固定化真菌漆酶对分散兰-2BLN的脱色和降解

采用改良壳聚糖固定化的真菌漆酶对染料分散兰-2BLN进行脱色和降解条件的研究，探索了固定化漆酶活力、处理时间、染料浓度、温度和pH对其降解效果的影响。结果表明，固定化漆酶脱色降解分散兰-2BLN的适宜条件为：固定化漆酶活力18.2U／mL，染料浓度100mg／L，温度40℃，pH4.6，在上述条件下降解1.5h，分散兰-2BLN脱色率能达到87.68％。重复分批使用固定化漆酶处理2BLN兰，在使用6批次后，脱色率仍能保持在55％以上，其催化效率得到了较大提高。     

茄子秸杆活性炭对染料废水的吸附性能研究

以茄子秸秆为原料，ZnCl2为活化剂制备粉末状活性炭，主要研究了活性炭对染料废水的吸附性能；以活性红X-3B和酸性蓝RL为模型染料，考察了染料初始浓度、pH值、活性炭投加量和吸附时间等对染料脱色率的影响。结果表明，染料初始浓度和活性炭投加量对染料脱色率影响较大。初始浓度为300mg／L时，活性炭的最佳投加量分别为1g／L和1．4g／L；在最佳工艺条件下，脱色率分别在93％和98％以上，COD去除率分别为94．5％和86．4％，出水水质达到国家一级《纺织染整工业水污染物排放标准》（GB 4287—1992）。     

青霉菌X5对活性艳蓝KN-R脱色研究

采用梯度平板筛选法，从染布厂废水池污泥中分离到一株对蒽醌染料KN－R有较强脱色能力的青霉菌X5（Penicillium sp.)，并考察该菌在不同温度，pH，培养时间，染料浓度，菌量及不同碳源氮源条件下对活性艳蓝KN－R的脱色情况，结果表明,在20－40℃温度范围内该菌对活性艳蓝KN－R的脱色率均在95％以上，其最佳脱色温度为25℃，pH为4．0，培养时间为48h，染料浓度，菌量对染料脱色有一定影响，该菌对碳源、氮源具有较宽适应范围，在最佳条件下，该菌对染料的脱色率达99．3％。     

咪唑银配位聚合物吸附偶氮染料研究

以咪唑银配位聚合物{Ag（im）}n作吸附剂,对偶氮染料刚果红和甲基橙的吸附进行了研究,结果表明：刚果红的最佳吸附条件是吸附剂加入量为31．5mg,温度为30℃,pH值为3,吸附时间为70min,最高染料脱除率为90。7％;甲基橙的最佳吸附条件是吸附剂加入量为36．7mg,温度为30℃,pH值为2,吸附时间为50min,最高染料脱除率为58．3％。     

RD复合净水剂对阳离子染料RL的吸附脱色

考察了RD复合净水剂吸附处理阳离子艳兰染料RL废液的实验条件,探讨了RD吸附脱色的实质。结果表明,加入0.3gRD到浓度为200mg/L的染液中,在25℃、pH=7.0条件下,吸附时间为10m in时,废液的脱色率达到80%,RD单位质量吸附量为10.7mg/g;当50mg/L的染料废液中,RD的投加量为0.2g时,脱色率达到了96%以上,RD单位质量吸附量为8.12mg/g;pH值和温度对吸附脱色效果影响不显著,而且RL废液的浓度增大,RD单位质量吸附量增大,但是脱色率有所下降。RD对染料的吸附符合Langmu ir吸附模型。     

活性污泥吸附重金属Cr6+的研究

以活性污泥为材料，采用不同时间、温度、pH进行吸附重金属Cr^6 的研究。实验结果表明，当吸附时间为15min，吸附温度为28℃，吸附pH=7时具有较好吸附效果。在此条件下，当重金属Cr^6 浓度为50mg/L，其吸附率可达97．2％。     

真菌产漆酶对蒽醌类染料脱色的研究

以香菇发酵获得漆酶粗酶液,用该酶液对蒽醌类染料进行脱色研究,分别考察了反应温度、pH值、时峰、漆酶浓度和不同染料的脱色影响.结果表明,香菇产漆酶粗酶液对蒽醌类染料具有良好的脱色效果,脱色最佳条件为：温度在30℃左右、pH3-4、反应8h、酶单位在20-30U/L的脱色率达85％.     

Response surface optimization of acid red 119 dye from simulated wastewater using Al based waterworks sludge and polyaluminium chloride as coagulant

In this research, the performance of Polyaluminium Chloride (PAC) and Polyaluminium Chloride sludge (PACS) as coagulants for acid red 119 (AR119) dye removal from aqueous solutions were compared. The sample of PACS was collected from "Baba Sheikh Ali" water treatment plant (Isfahan, Iran) where PAC is used as a coagulant in the coagulation/flocculation process. A response surface methodology was applied to evaluate the simple and combined effects of the operating variables including initial pH, coagulant dosage and initial dye concentration and to optimize the operating conditions of the treatment process. Results reveal that the optimal conditions for dye removal were initial pH 3.42, coagulant dosage of 4.55 g dried PACS/L and initial dye concentration of 140 mg/L for PACS, while the optimal initial pH, coagulant dosage and initial dye concentration for PAC were 3.8, 57 mg/L and 140 mg/L, respectively. Under these optimal values of process parameters, the dye removal efficiency of 94.1% and 95.25% was observed for PACS and PAC, respectively. Although lower amount of PAC in comparison with PACS was needed for specific dye removal, the reuse of PACS as a low-cost material can offer some advantages such as high efficiency for AR119 dye removal and economic savings on overall water and wastewater treatment plant operation costs.     

Removal of an anionic dye (Acid Blue 92) by coagulation–flocculation using chitosan

Chitosan (a biopolymer) is an aminopolysaccharide that can be used for the treatment of colored solutions by coagulation–flocculation (as an alternative to more conventional processes such as sorption). Acid Blue 92 (a sulfonic dye) was selected as a model dye for verifying chitosan's ability to treat textile wastewater. A preliminary experiment demonstrated that chitosan was more efficient at color removal in tap water than in demineralized water, and that a substantially lower concentration of chitosan could be used with tap water. Dye removal reached up to 99% under optimum concentration; i.e., in terms of the acidic solutions and the stoichiometric ratio between the amine groups of the biopolymer and the sulfonic groups in the dye. The flocs were recovered and the dye was efficiently removed using alkaline solutions (0.001–1 M NaOH solutions) and the biopolymer, re-dissolved in acetic acid solution, was reused in a further treatment cycle.     

Biosorption of Reactive Black 5 from aqueous solutions by chitosan: Column studies

Fixed-bed column studies were carried out to investigate the dynamic sorption of Reactive Black 5 (RB5) onto chitosan. The effect of operating parameters such as initial dye concentration, superficial flow velocity, bed height and particle size on the sorption of RB5 onto chitosan was studied. Column regeneration, dye recovery and the possibility of reusing the regenerated chitosan were also investigated. The results show that both the breakthrough curves and the adsorption parameters of the column were strongly affected by the operating parameters studied. An analysis of the breakthrough curves indicated that adsorption was affected by mass transfer limitations, probably due to intraparticle diffusion. An empirical model was applied to describe the breakthrough curves, while the Bohart–Adams and BDST models were used to determine the operating parameters useful in the process design. Elution of the column with 0.01 mol L^?1 NaOH allowed the chitosan to be regenerated and the dye to be recovered and concentrated. The concentration factor was 10. Several cycles of adsorption–elution showed that the regenerated chitosan retained good adsorption efficiency and the elution efficiency was always higher than 80%.     

Fenton试剂高级氧化法降解甲基橙模拟废水研究

甲基橙是一种较难降解的有机苯环偶氮染料之一，研究其降解性能对其他染料废水体系的降解研究具有普遍参考价值。通过研究Fenton试剂降解甲基橙过程中的H202浓度、Fe2＋浓度、反应时间和反应体系pH值对甲基橙降解的影响，确定其最佳降解工艺条件为：当甲基橙浓度为20mg／L、pH值为3、Fe2＋浓度为1．5mmol／L、H2O2为32mmol/L时，降解率达到最大值（98．95％）。     

Exploitation of Trichoderma harzianum mycelial waste for the removal of rhodamine 6G from aqueous solution

The harvested mycelial waste of Trichoderma harzianum was used as an adsorbent for the removal of rhodamine 6G and was studied in batch mode. The effects of agitation time and initial dye concentration, adsorbent dosage and pH were examined. The study revealed that the amount of dye adsorbed (mgg(-1)) increased with increase in agitation time and reached equilibrium after 120 min, for dye concentrations of 10-50 mg L(-1). The adsorbent dosage of 1.0 g/50 mL and pH of 8.0 were found to be optimum for maximum dye removal. The batch mode adsorption data followed both the Langmuir and Freundlich isotherms. The pseudo first- and second-order rate kinetics were applied to the adsorbent system. The adsorption kinetics of rhodamine 6G showed that the pseudo-second-order kinetic model provided the best correlation of the equilibrium data. The study implies that it is possible to develop a dye removal system by using T. harzianum biomass, which occurs as sludge in waste stream of fermentation industries.     

壳聚糖对小麦期叶中营养物质含量的影响

在不同壳聚糖浓度和时间条件下对小麦种子进行处理,通过小麦萌发后期叶中游离氨基酸、蛋白质、叶绿素和可溶性糖含量的变化,从而得出壳聚糖处理小麦种子的最佳条件为:浓度8g/L、浸种时间10h,其结果将对小麦生产提供理论基础.     

铀吸附实验研究现状

介绍了铀吸附实验的研究现状，对吸附铀的各种载体进行了总结。目前，主要采用静态法（批示法）和动态法（柱法）进行铀的吸附实验研究。吸附铀的载体主要有粘土，金属的水合氧化物等肢体，藻类及菌类，树脂等。主要考察pH值、温度、吸附时间、阴离子、阳离子、细菌浓度、铀浓度等对吸附速率及吸附量的影响。