Effect of Sb dopant amount on the structure and electrocatalytic capability of Ti/Sb-SnO2 electrodes in the oxidation of 4-chlorophenol

Ti/Sb-SnO_2 anodes were prepared by thermal decomposition to examine the influence',of the amount of Sb dopant on the structure and electrocatalytic capability of the electrodes in the oxidation of 4-chlorophenol.The physicochemical properties of the Sb-SnO_2 coating were markedly influenced by different amounts of Sb dopant.The electrodes,which contained 5% Sb dopant in the coating, presented a much more homogenous surface and much smaller mud-cracks,compared with Ti/Sb-SnO_2 electrodes containing 10% or 15% Sb dopant,which exibited larger mud cracks and pores on the surface.However,the main microstructure remained unchanged with the addition of the Sb dopant.No new crystal phase was observed by X-ray diffraction(XRD).The electrochemical oxidation of 4-chlorophenol on the Ti/SnO_2 electrode with 5% Sb dopant was inclined to electrochemical combustion;while for those containing more Sb dopant,intermediate species were accumulated.The electrodes with 5% Sb dopant showed the highest efficiency in the bulk electrolysis of 4-chlorophenol at a current density of 20 mA/cm~2 for 180 min;and the removal rates of 4-chlorophenol and COD were 51.0% and 48.9%,respectively.     

电化学处理改善剩余污泥脱水性能

以毛细吸水时间（CST）作为衡量污泥脱水性能的指标,采用铱/二氧化钌电极板为阳极、钛/二氧化钌网状极板为阴极,对剩余污泥进行电化学处理,考察了电压、处理时间等因素对剩余污泥脱水性能的影响.结果表明,电压对污泥脱水性能影响较大,当电压为30V、极板间距为4cm、搅拌速率为100r.min-1、处理30min条件下污泥调理...     

活性炭的电解氧化再生研究

通过比较饱和吸附苯酚的活性炭的交换再生和电解再生,揭示了电解再生比交换再生有更高的再生效率。无论是单独的阳极再生还是阴极再生,其再生效率均可超过80%,但由于阳极区的氧化性,可以时苯酚在活性炭的表面聚合,从而降低了再生效率和活性炭的吸附性能。同时,在研究的体系内,200 mA认为是电解过程中最佳的电流强度,这一电流强度不但可以有效地再生活性炭,还可以有效地去除再生出来的苯酚。较小粒径的活性炭不仅有较高的吸附效率,而且也有较高的电解再生效率。     

铝电解烟气对车间空气及人体健康的影响初探

文章初步探讨了在电解铝生产过程中,电解车间空气污染物的空间分布规律,以及对车间工人身体健康的影响。监测发现,电解车间空气中粉尘和氟化物浓度均随着离地面高度的增加而增大,且电解烟气除尘系统集气效率越低浓度越高。对职工的体检结果显示,氟化物对职工尤其是电解车间工人的健康有一定的影响,且在氟环境中暴露时间越长,影响越大,具有累计效应。     

光催化/内电解协同处理分散蓝E-4R的研究

建立了微波无极紫外光催化氧化/内电解协同处理印染废水的新工艺。采用微波无极紫外光,以活性炭为光催化剂TiO2的载体,与外加铁屑构成内电解反应,处理分散蓝E-4R模拟废水。研究结果表明:协同工艺中主要是通过内电解过程产生的Fe3+捕获光电子来提高光催化作用的效率,而通过Fe2+催化H2O2形成光Fenton反应生成.OH的效应则较小。在曝气量为0.5 L/min、pH为5、铁屑投加量为40 g、染料初始浓度为50 mg/L时,分散蓝E-4R的脱色率和COD去除率分别达到99.56%、68.45%。     

铁炭微电解组合工艺处理大蒜切片废水研究

采用铁炭微电解技术为核心工艺的混凝-铁炭微电解-强化电解组合工艺对大蒜切片废水进行处理,主要研究了铁炭微电解的运行参数,包括曝气与否、废水pH值、反应时间、铁炭质量比、铁水质量比对COD去除效果的影响。结果表明:经过组合工艺处理后,废水刺鼻的气味完全消除,浊度去除率达100%,ρ(COD)值由13050mg/L降至878mg/L,去除率达93.3%,BOD5/COD(B/C)值由0.10提高到0.46,废水的可生化性显著提高。     

废乳化液化学治理技术研究现状

废乳化液化学治理技术主要有:Fenton氧化、混凝、电解、催化湿式氧化等。化学治理技术由于反应速度快、处理效果好而成为目前主要的化学破乳技术,但是较高的成本和控制参数的复杂性使得其应用受到一定的限制。今后废乳化液化学治理研究重点应该是降低治理成本、简化操作流程,并解决产生二次污染的问题。     

Effects of bicarbonate and cathode potential on hydrogen production in a biocathode electrolysis cell

A biocathode with microbial catalyst in place of a noble metal was successfully developed for hydrogen evolution in a microbial electrolysis cell （MEC）. The strategy for fast biocathode cultivation was demonstrated. An exoelectrogenic reaction was initially extended with an H2-full atmosphere to enrich Ha-utilizing bacteria in a MEC bioanode. This bioanode was then inversely polarized with an applied voltage in a half-cell to enrich the hydrogen-evolving biocathode. The electrocatalytic hydrogen evolution reaction （HER） kinetics of the biocathode MEC could be enhanced by increasing the bicarbonate buffer concentration from 0.05 mol·L-1 to 0.5 mol· L-1 and/or by decreasing the cathode potential from -0.9 V to - 1.3 V vs. a saturated calomel electrode （SCE）. Within the tested potential region in this study, the HER rate of the biocathode MEC was primarily influenced by the microbial catalytic capability. In addition, increasing bicarbonate concentration enhances the electric migration rate of proton carriers. As a consequence, more mass H＋ can be released to accelerate the biocathode-catalyzed HER rate. A hydrogen production rate of 8.44 m3. m 3. d1 with a current density of 951.6 A. m-3 was obtained using the biocathode MEC under a cathode potential of - 1.3 V vs. SCE and 0.4 mol· L-1 bicarbonate. This study provided information on the optimization of hydrogen production in biocathode MEC and expanded the practical applications thereof.     

曝气条件下微电解-Fenton工艺联合处理模拟染料废水的研究

曝气条件下采用微电解-Fenton工艺处理模拟染料废水。在最佳微电解工艺即铁炭比为45 g∶45 g,pH=3,反应时间为60 min;在Fenton工艺pH值为3,H2O2投加量0.7 mL,反应时间为120 min时,染料废水总脱色率达92%,其色度去除率高于单独微电解工艺时的63%和单独Fenton工艺时的67%。模拟染料废水经微电解及Fenton工艺处理后,废水pH值、Fe2+浓度和色度均发生变化。     

氯代烃在铜电极上的电还原特性和还原机理

采用循环伏安法,对氯代烃在铜电极表面上的电还原特性进行了研究,评价了它们在铜电极上的电还原反应活性,分析了此类化合物在铜电极上的还原机理,并且讨论了电还原反应活性和此类化合物结构之间的关系.结果表明,氯代烷烃和部分氯代芳烃在铜电极表面有还原电位,能在铜电极表面被直接还原.氯代芳烃不易在铜电极上被直接还原.实验结果为催化铁内电解法提供了理论依据.