电絮凝法处理石油裂化催化剂废水

针对石油裂化催化剂废水高盐高浊、水质水量变化大的特点,采用电絮凝工艺对其进行处理,并对初始p H、极板间距、电流密度及电解时间等工艺条件进行了优化。结果表明,电絮凝法对石油裂化催化剂废水有较好的除浊效果,在最优工艺参数(初始p H=8,极板间距为1.5 cm,电流密度为25 m A/cm2,电解时间为40 min)条件下,电絮凝对废水浊度和SS的去除率分别在97%和95%以上,出水浊度和SS分别低于5 NTU和15 mg/L;电絮凝过程平均电耗为0.723(k W·h)/m3,铝阳极平均损耗为0.1497 kg/m3,主要成本为铝阳极损耗。电絮凝法适于石油裂化催化剂废水的处理,可操作性强,应用前景良好。     

脉冲电絮凝法处理黄连素废水

以Fe为电极,采用脉冲电絮凝法对实际黄连素制药废水进行处理。为了确定脉冲电絮凝法处理黄连素废水最优工艺条件,选择占空比、电流密度、脉冲频率、电极间距和pH等5个因素,开展了正交实验研究。对正交实验结果进行极差与方差分析,确定了各因素的显著性及优选条件。结果表明,各因素对废水COD去除率影响程度依次为:占空比>pH>电极间距>脉冲频率>电流密度;对黄连素去除率影响程度依次为:占空比>pH>电流密度>脉冲频率>电极间距。最优工艺条件为电极间距为1.5 cm,电流密度为16.7 mA/cm2(电流3.5 A,电压11.2 V),占空比为0.4,脉冲频率为0.1 kHz,pH为10,此时废水的COD与黄连素的去除率分别为61%与74%。     

铝铁电极联用电絮凝法处理Cu-EDTA络合废水

采用电絮凝法处理Cu-EDTA模拟废水,研究电极组合方式、初始pH值和氯化钠浓度3个因素对化学需氧量(COD)和Cu去除效果的影响。实验研究发现,当电极组合方式为2个铝阳极和2个铁阴极,起始pH值为3,氯化钠浓度为0.5 g/L,换极周期为40 min,反应时间为80 min时,COD去除率达到78.7%,Cu离子去除率达到99.9%。通过实验研究确定EDTA的去除机制主要是:酸性条件下的次氯酸氧化作用,碱性条件下的氢氧化物絮凝沉淀作用及单核态铝/铁与多核态铝/铁电荷中和作用,Cu的去除机制主要是氢氧化物的絮凝沉淀作用和铁电极的电沉积作用。     

电絮凝-离子交换-生化法处理化学镀铜废液

采用电絮凝-离子交换-厌氧-好氧膜生物反应器(MBR)法处理印刷线路板化学镀铜废液。结果表明,电絮凝在pH为6.0,电流密度为50 m A/cm2、电解时间2 h的条件下,COD去除率约为71.5%,Cu去除率为86%左右,可生化指数从0.11提高到0.30。采用大孔苯乙烯系螯合型阳离子树脂吸附回收铜,在pH为5时,树脂对铜去除率最大,饱和吸附量为31.28 g/kg。流速为6 BV/h时,穿透时间为298 min,处理水量884 m L。选用质量分数为15%的盐酸作为解吸剂,解吸率可达96.4%。离子交换出水进行厌氧-好氧MBR法处理。电絮凝-离子交换法-厌氧-好氧MBR工艺能有效处理化学镀铜废液,生化出水COD浓度低于250 mg/L,铜浓度低于0.5 mg/L,达到广东省《水污染物排放限值(DB44/6-2001)》中COD和总铜的三级排放标准。     

电解絮凝法处理老龄垃圾渗滤液的实验研究

为考察简便低耗的电解材料处理效果,采用铸铁阳极电解絮凝法对老龄垃圾渗滤液进行了处理,通过正交实验和单因素实验考察了电解液浓度、电流密度、pH、极板间距对处理效果的影响.结果表明,电解絮凝法对该老龄垃圾渗滤液有较好的处理效果,当电流密度为50 mA/cm2、pH值为9、极板间距为2 cm、电解75 min后,COD和NH...     

超声强化电絮凝处理洗车废水的试验研究

针对洗车行业对水资源的浪费及污染现状,采用超声强化电絮凝处理洗车废水.考察了电流密度、初始pH、极板间距、处理时间等因素对洗车废水处理效果的影响,并讨论了超声强化电絮凝机制.结果表明,超声强化电絮凝处理洗车废水的最佳条件是电流密度1,500 mA/cm2、初始pH无需调节、极板间距为1.5cm、处理20 min,COD与浊度去除率分别为68.77％、96.89％,出水达到《城市污水再生利用城市杂用水水质》(GB/T 18920-2002)要求.可见,超声能改变电絮凝反应动力学过程,强化电絮凝去除污染物效果.     

电芬顿法去除兰炭废水COD

为处理高浓度生物难降解兰炭废水,考查了利用不锈钢作阳极和石墨气体扩散电极作阴极构成的电芬顿体系对兰炭废水COD的去除效果。系统地考察了空气流速、电流密度、溶液pH值及极板间距等因素对废水COD去除率的影响。电解过程的较佳条件:空气流速为2.5 L/min;电流密度为5.2 mA/cm2;溶液pH值为3;极板间距为2 cm。电芬顿法处理兰炭废水240 min之后,COD最高去除率可达78.62%,实现了对兰炭废水的预处理,为兰炭废水的处理提供了新的途径。     

电絮凝处理三次采油废水

采用电絮凝技术对含PAM的三次采油废水进行处理,研究了不同极板、pH、电流密度、极板间距、搅拌速度、反应时间以及极性交换周期对大庆三次采油废水处理效果的影响。通过处理效果和成本分析,铝作为极板时处理效果要优于铁板,最佳实验条件下COD去除率达到了94.6%。同时对三次采油废水的主要性质和电絮凝处理三次采油废水的作用机理进行了分析,发现COD主要通过絮凝沉降作用去除,而电化学氧化作用和气浮作用对COD的去除效果并不显著。与普通化学混凝法相比,电絮凝处理三次采油废水在处理效果和成本方面有着独特的优势。     

电混凝处理废乳化液的研究

本文对电混凝处理废乳化液的操作条件进行了试验研究。结果是极板间距 8mm、电流密度 5mA/cm2 、时间2 5min为最佳操作条件。处理后出水COD为 86 0mg/L、油为 10 .36mg/L、pH为 8.8、NO-2 为 2 10mg/L ,外观清澈透明。用此水配制乳化液并分析测定了新配制乳化液的性能 ,符合GB6 14 4 85的标准 ,完全可以循环使用电混凝出水配制乳化液。因为电混凝后出水 pH较高 ,含一定量的NaNO2 ,重新配制乳化液时 ,就可以节省NaNO2 。     

电絮凝同步去除水中铜(Ⅱ)和铬(Ⅵ)复合污染物的影响因素及其作用机理

铜(Cu(Ⅱ))和铬(Cr(Ⅵ))是水和废水中一类重要的重金属复合污染物。电絮凝(electrocoagulation,EC)是目前很有效的重金属深度处理技术,因此,采用电絮凝静态反应器对水中Cu(Ⅱ)和Cr(Ⅵ)的复合污染物的同步去除进行研究。在单极式连接条件下,考察电极材料、电流密度、初始pH、极板间距和电导率等因素对电絮凝效果的影响。结果表明,与铁电极相比,铝电极显示出更好的Cu(Ⅱ)和Cr(Ⅵ)同步去除效果。因此,采用铝电极进行因素筛选实验,筛选出的实验条件为:Cu(Ⅱ)的进水浓度为18.73~20.08 mg·L~(-1),Cr(Ⅵ)的进水浓度为12.98~14.35 mg·L~(-1),在初始pH为3~6,电流密度为11.57 A·m~(-2),极板间距为1 cm,电导率在899~2 000μS·cm~(-1)的范围内。去除结果表明,总铬(TCr)、Cr(Ⅵ)和Cu(Ⅱ)的去除率均在94%以上,出水Cu(Ⅱ)、TCr和Cr(Ⅵ)的浓度分别为0.081.24、0.491.21和0.120.49 mg·L~(-1),出水pH在6~9之间,可以满足《污水综合排放标准》(GB 8978-7996)要求。     

A study on influential factors of high-phosphorus wastewater treated by electrocoagulation–ultrasound

A combined treatment of electrocoagulation and ultrasound was proposed to solve some problems which exist in the phosphorus removal processes in fine chemical industry. The intermittently discharged wastewater has the features of high initial phosphorus concentration and wide initial pH variation. The electrocoagulation–ultrasound effective performance for the removal of phosphorus was investigated. The results obtained from synthetic wastewater showed that the total phosphorus (TP) decreased from 86 to about 0.4 mg/L, and the removal efficiency reached about 99.6 %, when ultrasound was applied to the electrocoagulation cell under the optimum working conditions in 10 min. Comparatively, the TP removal efficiency of electrocoagulation group was 81.3 % and the ultrasound group has almost no change. Therefore, we can conclude that the electrocoagulation and ultrasound synergistic effect can effectively degrade high-phosphorus wastewater. We have discussed the impact of various parameters on the electrocoagulation–ultrasound based on the phosphorus removal efficiency. The results obtained from synthetic wastewater showed that the optimum working pH was found to be 6, allowing the effluent to be met the emission standards without pH adjustment. An increased current enhanced the speed of treatment significance, but higher current (>40 mA/cm²) enhanced ultrasonic cavitation effect causing flocculation ineffective. In addition, it was found that the optimum ultrasonic power was 4 W/cm² and the frequency was 20 kHz. The best ultrasound intervention and ultrasonic irradiation time were processed with electrocoagulation simultaneously. The results indicated that the electrocoagulation–ultrasound could be utilized as an attractive technique for removal of phosphate in the real wastewater.     

电絮凝处理油田生化出水

为了减轻对后续处理中超滤膜的污染,采用电絮凝法处理油田生化出水,降低油田生化出水中的有机物含量。研究了电流强度、曝气时间和pH值对水中总有机碳（TOC）和浊度除去效果的影响以及pH值随曝气时间的变化趋势,通过红外光谱对絮凝处理前后水中总溶解固体进行了分析,优化了电絮凝的工艺条件。研究表明,当水流速度控制在50mL/s,电流强度为2 A,500 mL絮凝出水的曝气时间为30 min时,整套絮凝工艺对TOC的去除率为48%,浊度去除率为42.9%,COD去除率为44%。     

Removal of copper from water by electrocoagulation process—effect of alternating current (AC) and direct current (DC)

Purpose and aim

In general, direct current (DC) is used in an electrocoagulation processes. In this case, an impermeable oxide layer may form on the cathode as well as corrosion formation on the anode due to oxidation. This prevents the effective current transfer between the anode and cathode, so the efficiency of electrocoagulation processes declines. These disadvantages of DC have been diminished by adopting alternating current (AC) in electrocoagulation processes. The main objective of this study is to investigate the effects of AC and DC on the removal of copper from water using magnesium alloy as anode and cathode.

Materials and methods

Magnesium alloy of size 2.0 dm² was used as anode and as cathode. To optimize the maximum removal efficiency, different parameters like effect of initial concentration, effect of temperature, pH, and effect of current density were studied. Copper adsorbed magnesium hydroxide coagulant was characterized by SEM, EDAX, XRD, and FTIR.

Results

The results showed that the optimum removal efficiency of copper is 97.8 and 97.2 % with an energy consumption of 0.634 and 0.996 kWh/m³ at a current density of 0.025 A/dm², pH of 7.0 for AC and DC, respectively. The adsorption of copper is preferably fitting the Langmuir adsorption isotherm for both AC and DC respectively. The adsorption process follows the second-order kinetics model with good correlation. Temperature studies showed that adsorption was endothermic and spontaneous in nature.

Conclusions

The magnesium hydroxide generated in the cell removes the copper present in the water, reducing the copper concentration to less than 1 mg/L, making it safe for drinking. The results of the scale-up study show that the process was technologically feasible.     

电混凝处理电镀综合废水

采用电混凝法处理酸性电镀综合废水,首先研究了不同电流密度对总氰化物、重金属和化学需氧量（COD）去除率的影响。实验结果表明,电混凝可有效去除酸性电镀综合废水中的氰化物与重金属。随着电流密度的增大,总氰化物与重金属的去除率逐渐提高。当电流密度为10mA／cm2时,废水中残留的总氰化物、Cu2＋、Ni2＋、Cr6＋和Zn2＋ 的浓度分别为23．0、25．0、4．5、0．2和0．2mg／L。为了进一步提高去除率,在电化学体系中添加H2O2,随着H2O2投量的增大,总氰化物、重金属、COD去除率不断提高。当H2O2投量为3mL／L时,处理过废水中残留总氰化物、Cu2＋、Ni2＋、Cr6＋、Zn2＋和COD的浓度分别为0．2、2．0、3．0、1．5、0．1和220mg／L。     

高浓度钻井废水的混凝-催化氧化处理

以华北油田某深井的高浓度钻井废水(COD高达14 460.0 mg/L)为研究对象,提出了酸化-混凝-催化氧化-吸附的组合处理工艺。重点研制了钻井废水催化氧化处理催化剂(镍基催化剂),通过实验确定了最佳工艺参数条件。着重考察了催化氧化处理的工艺条件,在pH值为4,次氯酸钙投加量为4.4 g/L,催化剂投加量为1.6 g/L的条件下COD降至403.5 mg/L,进一步吸附处理后COD降至139.9 mg/L、色度为30倍、石油类含量为3.8 mg/L、pH为8.0和SS浓度为52mg/L,最终出水水质达到《污水综合排放标准》(GB 8978-1996)二级标准,处理成本为84.8元/m3。     

生活垃圾焚烧发电厂渗滤液蒸发浓缩处理

垃圾焚烧厂渗滤液因水质复杂,NH3-N、COD和电解质含量高等特点,成为一种难处理有机废水。采用负压蒸发浓缩法对渗滤液及电絮凝预处理渗滤液的处理进行了对比研究,并考查了浓缩比、pH等因素的影响。研究结果表明,电絮凝预处理不能改变渗滤液中COD、NH3-N的蒸发去除规律,即蒸发处理过程中,蒸发冷凝液中COD在蒸发前期和后期含量较高,蒸发中期较低;而NH3-N含量在蒸发处理前期较高,中后期含量较低。pH对蒸发处理影响较大,在酸性pH下COD去除率较低,但NH3-N去除率较高,可达95%以上,而在中碱性pH下,COD去除率增高,NH3-N去除率降低。渗滤液及电絮凝预处理渗滤液的一次蒸发冷凝液,经过二次蒸发处理后,冷凝液中COD和NH3-N含量均能达到一级排放标准,即分别低于100 mg/L和15 mg/L。     

Treatment of Basic Red 29 dye solution using iron-aluminum electrode pairs by electrocoagulation and electro-Fenton methods

The aim of this study is the treatment of Basic Red 29 (BR29) dye solution using hybrid iron-aluminum electrodes by electrocoagulation and electro-Fenton methods. The effect of current density, initial pH, supporting electrolyte, H₂O₂, and initial dye concentration on dye removal efficiency was investigated, and the best experimental conditions were obtained. Time-coarse variation of UV-Vis spectra and toxicity and chemical oxygen demand (COD) removal were also examined at the best experimental conditions. Both systems were found very successful for the removal of BR29 dye. The removal efficiency of >95 % for BR29 dye solution was reached easily in a short time. At the best experimental conditions, for the initial BR29 concentration of 100 mg/L, >95 % BR29 dye and 71.43 % COD removal were obtained after 20 and 40 min of electrolysis, respectively. Additionally, toxicity results for electro-Fenton treatment of 100 mg/L BR29 were also very promising. According to the results obtained, although electro-Fenton is more effective, both systems can be used successfully to treat textile wastewater including dyes.     

混凝法深度处理废纸造纸废水实验研究

按照烧杯实验方法,重点考察了pH值、混凝剂种类和投加量等因素对生化处理后废纸造纸废水混凝处理效果的影响。实验结果表明:PAC作为混凝剂,PAM作为助凝剂联合处理该废水时,能够取得较好的去浊率、SS、色度和COD去除率。混凝沉淀最佳运行条件为:废水pH为6.5,含铝量10%的PAC和2 g/L的PAM投加量分别为1 mL/L、0.5 mL/L,浊度从35 NTU降低到1 NTU,去除率达97.1%,SS从30 mg/L降低到7 mg/L,去除率达76.7%,色度从64倍降低到18倍,去除率达71.9%,COD从95 mg/L降低到44.8 mg/L,去除率可达52.8%,取得了较好的去除效果,达到国家造纸废水新排放标准限值。     

昆明市污水排水系统产甲烷规律的模拟实验研究

通过对昆明市餐饮和居民生活污水厌氧模拟实验研究,初步探讨生活污水中CH4的产生规律,实验结果表明,在自然条件下,餐饮和居民生活污水中产生的甲烷浓度最大值分别为1.63 mg/L和3.82 mg/L。并且将COD、硫酸盐、硫化物、TN的浓度变化与甲烷浓度变化进行Pearson简单相关性分析,结果表明,1/COD、COD/硫酸盐和1/TN与甲烷在置信度为0.01时极显著相关,硫化物与甲烷在置信度为0.05时不相关;COD、硫酸盐和TN浓度的变化对生活污水中甲烷的产生起关键性作用。对居民生活污水中甲烷产生规律进行温度和pH控制分析研究,实验结果表明,生活污水在25~30℃时,24 h内甲烷产生量最大值为8.6494 mg/L,明显大于其他温度段的甲烷产生量;在pH为7~8之间时,甲烷的产生量在24 h内达到的最大值为3.0477 mg/L,明显高于其他pH控制段的甲烷产生量。     

UV/Fenton技术处理某工厂高浓度乳化油废水

研究了UV/Fenton技术对高浓度金属清洗乳化油废水的处理效果,考察了亚铁与双氧水浓度、pH、反应时间和搅拌对COD去除效果的影响。实验结果表明,UV/Fenton技术对高浓度乳化油废水(COD平均浓度为35 000 mg/L)具有较高的去除效果,最佳工艺条件为:亚铁与双氧水浓度分别为2 400 mg/L和6 000 mg/L,pH为3,经过2 h反应,COD可降低至1 050 mg/L,去除率为97%。搅拌会降低COD的去除率。研究表明,UV/Fenton技术对高浓度乳化油废水具有很好的降解效果,且药品消耗较低,为目前此类高浓度有机废水的处理提供了技术参考。