Separation/degradation behavior and mechanism for cationic/anionic dyes by Ag-functionalized Fe3O4-PDA core-shell adsorbents

● PDA-Fe₃O₄-Ag was made by hydrothermal and oxidation self-polymerization method. ● PDA-Fe₃O₄-Ag had great magnetic separation performance. ● PDA-Fe₃O₄-Ag had good adsorption and degradation performance for ionic dyes. ● PDA-Fe₃O₄-Ag showed NR and MO degradation potential of 91.2% and 87.5%, respectively. High-performance adsorbents have been well-studied for the removal of organic dye pollutants to promote environment remediation. In this study, an Ag nanoparticle-functionalized Fe₃O₄-PDA nanocomposite adsorbent (PDA-Fe₃O₄-Ag) was synthesized, and the adsorption/separation performance of commonly used cationic and anionic organic dyes by the PDA-Fe₃O₄-Ag adsorbent were assessed. Overall, PDA-Fe₃O₄-Ag exhibited a significantly higher adsorption capacity for cationic dyes compared to anionic dyes, the highest of which was more than 110.0 mg/g (methylene blue (MB)), which was much higher than not only the adsorption capacities of the anionic dyes in this study but also other dye adsorption capacities reported in the literature. The dye adsorption kinetics data fitted well to both the pseudo second-order kinetics model and the Langmuir isotherm model, suggesting a monolayer-chemisorption-dominated adsorption mode. Thermodynamics analysis indicated that the adsorption process was both endothermic and spontaneous. Furthermore, the PDA-Fe₃O₄-Ag adsorbent achieved high photodegradation removal rates of the dyes, especially neutral red (NR) and methyl orange (MO), which were 91.2% and 87.5%, respectively. With the addition of PDA-Fe₃O₄-Ag, the degradation rate constants of NR and MO increased from 0.08 × 10⁻² and 0 min⁻¹ to 2.11 × 10⁻² and 1.73 × 10⁻² min⁻¹, respectively. The high adsorption and photocatalytic degradation performance of the PDA-Fe₃O₄-Ag adsorbent make it an excellent candidate for removing cationic and anionic dyes from the industrial effluents.     

除草剂2，4-D在土壤中吸附常数的测定

介绍除草剂２,４－Ｄ在４种不同有机碳含量、不同ｐＨ值的土壤中吸附常数的测定．结果表明,４种土壤对２,４－Ｄ的吸附等温线均符合非线形的Ｆｒｅｕｎｄｌｉｃｈ吸附等温式,其有机碳吸附常数的平均值为２３９．６．２,４－Ｄ的吸附常数与土壤有机碳含量呈正相关,土壤的ｐＨ值对２,４－Ｄ的吸附也有一定的影响．     

人工湿地中蛭石填料净化污水中氨氮能力

研究了蛭石吸附污水中氨氮的吸附容量以及蛭石去除氨氮的等温吸附曲线，探讨了水中pH、温度、浓度对氨氮去除量的影响以及饱和蛭石再生后的效果，结果表明，蛭石的饱和和吸附量为20．83mg／g；蛭石吸附量在pH2．0～6．0范围内随着pH的增大而增大，最佳pH为4．0～6．0；温度在15℃～35℃范围内，吸附量随温度的升高减小；氨氮的去除率随着蛭石用量的增加而增加。这为蛭石作为一种新型填料提供了基础数据和理论依据。     

Photochemical degradation and mineralization of 4-chlorophenol

INTENTION, GOAL, SCOPE, BACKGROUND: Since the intermediate products of some compounds can be more toxic and/or refractory than the original compund itself, the development of innovative oxidation technologies which are capable of transforming such compounds into harmless end products, is gaining more importance every day. Advanced oxidation processes are one of these technologies. However, it is necessary to optimize the reaction conditions for these technologies in order to be cost-effective. OBJECTIVE: The main objectives of this study were to see if complete mineralization of 4-chlorophenol with AOPs was possible using low pressure mercury vapour lamps, to make a comparison of different AOPs, to observe the effect of the existence of other ions on degradation efficiency and to optimize reaction conditions. METHODS: In this study, photochemical advanced oxidation processes (AOPs) utilizing the combinations of UV, UV/H2O2 and UV/H2O2/Fe2+ (photo-Fenton process) were investigated in labscale experiments for the degradation and mineralization of 4-chlorophenol. Evaluations were based on the reduction of 4-chlorophenol and total organic carbon. The major parameters investigated were the initial 4-chlorophenol concentration, pH, hydrogen peroxide and iron doses and the effect of the presence of radical scavengers. RESULTS AND DISCUSSION: It was observed that the 4-chlorophenol degradation efficiency decreased with increasing concentration and was independent of the initial solution pH in the UV process. 4-chlorophenol oxidation efficiency for an initial concentration of 100 mgl(-1) was around 89% after 300 min of irradiation in the UV process and no mineralization was achieved. The efficiency increased to > 99% with the UV/H2O2 process in 60 min of irradiation, although mineralization efficiency was still around 75% after 300 min of reaction time. Although the H2O2/4-CP molar ratio was kept constant, increasing initial 4-chlorophenol concentration decreased the treatment efficiency. It was observed that basic pHs were favourable in the UV/H2O2 process. The results showed that the photo-Fenton process was the most effective treatment process under acidic conditions. Complete disappearance of 100 mgl(-1) of 4-chlorophenol was achieved in 2.5 min and almost complete mineralization (96%) was also possible after only 45 min of irradiation. The efficiency was negatively affected from H2O2 in the UV/H2O2 process and Fe2+ in the photo-Fenton process over a certain concentration. The highest negative effect was observed with solutions containing PO4 triple ions. Required reaction times for complete disappearance of 100 mgl(-1) 4-chlorophenol increased from 2.5 min for an ion-free solution to 30 min for solutions containing 100 mgl(-1) PO4 triple ion and from 45 min to more than 240 min for complete mineralization. The photodegradation of 4-chlorophenol was found to follow the first-order law. CONCLUSION: The results of this study showed that UV irradiation alone can degrade 4-CP, although at very slow rates, but cannot mineralize the compound. The addition of hydrogen peroxide to the system, the so-called UV/H2O2 process, significantly enhances the 4-CP degradation rate, but still requires relatively long reaction periods for complete mineralization. The photo-Fenton process, the combination of homogeneous systems of UV/H2O2/Fe2+ compounds, produces the highest photochemical elimination rate of 4-CP and complete mineralization is possible to achieve in quite shorter reaction periods when compared with the UV/H2O2 process. RECOMMENDATIONS AND OUTLOOK: It is more cost effective to use these processes for only purposes such as toxicity reduction, enhancement of biodegradability, decolorization and micropollutant removal. However the most important point is the optimization of the reaction conditions for the process of concern. In such a case, AOPs can be used in combination with a biological treatment systems as a pre- or post treatment unit providing the cheapest treatment option. The AOP applied, for instance, can be used for toxicity reduction and the biological unit for chemical oxygen demand (COD) removal.     

微波-改性活性炭-Fenton试剂氧化法降解水中2,4-二氯酚

以经Fe2（SO4）3溶液浸渍改性的活性炭作催化剂、Fenton试剂作氧化剂,采用微波-改性活性炭-Fenton试剂氧化法降解水中的2,4-二氯酚。考察了改性活性炭加入量、H2O2与Fe^2＋摩尔比、Fenton试剂加入量、微波功率和2,4-二氯酚溶液初始pH对2,4-二氯酚降解效果的影响。在改性活性炭加入量1．0g／L、n（H2O2）：n（Fe^2＋）=16．7（H2O2加入量6．0mmol／L、Fe^2＋加入量0．36mmol／L）、Fenton试剂加入量为6．36mmol／L、微波功率600W、微波辐射时间10min、2,4-二氯酚溶液初始pH为6．0的条件下,2,4-二氯酚降解率和TOC去除率分别可达98．7％和84．0％。     

Removal of substituted phenols onto iron‐treated Nostoc sp. biomass

This study explored the possibility of removing 4‐nitrophenol (4‐NP) and 2,4‐dichlorophenol (2,4‐DCP) from water by using a dead blue‐green algae, Nostoc sp., dried and untreated and dried and treated with iron (Fe‐treated with 0.1 M ferric chloride solution for 1 day). The Nostoc sp. untreated and Fe‐treated biomass were used to study the sorption and desorption of 4‐NP and 2,4‐DCP. The effects of solute concentration, ionic strength, and temperature on sorption and desorption in the presence of untreated and treated Nostoc sp. biomass were investigated. The Fe‐treated Nostoc sp. biomass sorbed higher amounts of both 4‐NP and 2,4‐DCP than the untreated biomass. The percent cumulative desorption decreased from 6.41% to 0.28% and 1.84% to 0.19%, respectively, for 4‐NP and 2,4‐DCP for the Fe‐treated biomass. Biosorption of 4‐NP and 2,4‐DCP onto untreated and Fe‐treated Nostoc sp. biomass conformed to Freundlich isotherms. Iron treatment of Nostoc sp. biomass increased the value of ln K from 8.07 to 8.59 for 4‐NP and from 8.04 to 8.51 for 2,4‐DCP but decreased their desorption. An increase in ionic strength (0.003–0.03) increased the biosorption of both substituted phenols and decreased their percent desorption. An increase in temperature in the range of 15–35°C decreased the sorption of 4‐NP and 2,4‐DCP onto both untreated and Fe‐treated Nostoc sp. biomass and increased their desorption, indicating that the biosorption of both substituted phenols onto untreated and Fe‐treated Nostoc sp. biomass was principally a physical process. The results of this study suggest that Fe‐treated dried Nostoc sp. biomass could be explored as an inexpensive and eco‐friendly material for the effective removal of these phenols and, potentially, other chemicals from industrial wastewater and contaminated groundwater.     

对酞内酰胺基苯甲酰氯衍生试剂合成的研究

本文对对酞内酰胺基苯甲酰氯的合成方法进行了研究,改进了溶剂的预处理方法,有效地消除了其中的有害杂质。     

Protective effects of α-lipoic acid and chondroitin-4-sulfate against benomyl-induced toxicity in rats

In this study, the effects of fungicide benomyl and the protective effects of α-lipoic acid (LA) and chondroitin-4-sulfate (C4S) used as antioxidants on liver and kidney of rats were investigated. Benomyl (200 mg kg^?1), LA (200 mg kg^?1), and C4S (25 mg kg^?1) were administered intraperitoneally by injection once a week for a period of five weeks. The results of this study are as follows: benomyl given subchronically showed toxic effects in the form of lipid peroxidation (LPO) on liver and kidney, and LA and C4S had antioxidant effects on liver and kidney. When LA and C4S were applied together, they were more effective than individually. Furthermore, it was observed that LA and C4S had partial protective effects against the histopathological effects caused by benomyl.     

华北平原典型农业区土壤甲烷通量研究

利用静态箱法原位测定了华北农田不同施肥处理夏玉米和冬小麦生长季土壤甲烷的通量。结果表明 ,施肥农田夏玉米和冬小麦生长季甲烷通量分别为 -79.8和 -2 1.6μg·(m2 ·h) - 1 ,年平均通量为 -4 3 .1μg·(m2 ·h) - 1 。未施肥农田夏玉米和冬小麦生长季甲烷通量分别为 -110 .0和 -88.2 μg·(m2 ·h) - 1 ,年平均通量为 -95 .2 μg·(m2 ·h) - 1 。在不同生长季 ,各处理农田土壤甲烷通量均为负值 ,即土壤为大气甲烷的吸收“汇” ,在各个生长季施肥农田对甲烷的吸收量均低于未施肥农田 ,各处理冬小麦生长季土壤对CH4 的吸收量均低于同一处理的夏玉米生长季的吸收量 ;各处理甲烷通量具有较明显的季节变化 ,5月上旬至 9月中旬 ,土壤的甲烷吸收能力较强 ,其他时间吸收量较低 ;施肥土壤约比未施肥土壤对甲烷的氧化吸收能力降低 2 7%～ 76% ;试验区域内较大降水在一定时期内促进了土壤对甲烷的氧化     

单甲脒在大鼠体内的吸收,代谢和排出的研究

大鼠经口灌喂单甲脒后，通过测定实验动物不同时间的血、尿及内脏中单甲脒和代谢产物２，４－二甲基苯胺的含量，研究了单甲脒在大鼠体内的呼收、代谢和排出的变化规律。单甲脒经消化道被迅速吸收，４８ｈ内９０％在肝脏代谢转化。７２ｈ内９０％以代谢产物的形式随尿液排出体外。