新型阶梯式人工湿地处理生活污水的研究

采用一种新型阶梯式人工湿地处理生活污水,考察了该工艺对COD、BOD5、NH3-N、全氮(TN)和全磷(TP)的去除效果,实验结果表明,当水力负荷约为0.44 m3/(m2.d),水力停留时间为3 d时,湿地对COD、BOD5、NH3-N、全氮(TN)和全磷(TP)的去除效果较好,平均去除率分别达到90.6%、87.9%、66.7%、63.4%和92.6%,出水COD约为14.1～30.8 mg/L,BOD5约为8.2～13.1 mg/L,NH3-N约为9.9～19.6 mg/L,TN约为17.3～28.7 mg/L,TP小于1.2 mg/L,出水水质优于农田灌溉水质标准(GB5084-2005)。植物种植长状况、温度变化及进水污染物浓度等因素对湿地处理效率有较大影响,总体上来讲,温度大于24℃、植物种植密度越大、进水污染物浓度越低处理效果越好。     

Cu-SBA-15催化湿式过氧化氢氧化水溶液中罗丹明B

采用水热晶化法合成了不同含铜量的Cu-SBA-15介孔分子筛,并且用XRD、N2吸附、TEM以及UV-vis对所合成的样品进行表征。以Cu-SBA-15为催化剂,H2O2为氧化剂,催化湿式过氧化水溶液中的罗丹明B,主要考察H2O2浓度、催化剂用量、处理温度、初始pH等因素对罗丹明B氧化效果的影响。结果表明,在同样的处理条件下罗丹明的脱色率明显高于TOC去除率,处理温度、初始pH对罗丹明B的脱色与氧化有重要影响。在罗丹明B初始浓度100 mg/L,H2O2初始浓度1.8 g/L,催化剂量0.3 g/L,温度60℃,pH为7.0,处理时间100 min时,罗丹明B的脱色率为98.6%,TOC去除率为62.8%。     

Degradation of 3,3′-iminobis-propanenitrile in aqueous solution by Fe0/GAC micro-electrolysis system

The degradation of 3,3′-iminobis-propanenitrile was investigated using the Fe⁰/GAC micro-electrolysis system. Effects of influent pH value, Fe⁰/GAC ratio and granular activated carbon (GAC) adsorption on the removal efficiency of the pollutant were studied in the Fe⁰/GAC micro-electrolysis system. The degradation of 3,3′-iminobis-propanenitrile was affected by influent pH, and a decrease of the influent pH values from 8.0 to 4.0 led to the increase of degradation efficiency. Granular activated carbon was added as cathode to form macroscopic galvanic cells between Fe⁰ and GAC and enhance the current efficiency of the Fe⁰/GAC micro-electrolysis system. The GAC could only adsorb the pollutant and provide buffer capacity for the Fe⁰/GAC micro-electrolysis system, and the macroscopic galvanic cells of the Fe⁰/GAC micro-electrolysis system played a leading role in degradation of 3,3′-iminobis-propanenitrile. With the analysis of the degradation products with GC–MS, possible reaction pathway for the degradation of 3,3′-iminobis-propanenitrile by the Fe⁰/GAC micro-electrolysis system was suggested.     

Duo-molecularly imprinted polymer-coated magnetic particles for class-selective removal of endocrine-disrupting compounds from aqueous environment

The removal of steroid and phenolic endocrine-disrupting compounds (EDCs) from an aqueous environment was investigated using magnetic particles encapsulated by a duo-molecularly imprinted polymer (duo-MIP). The effect of environmental variables on the binding efficiency was studied. Experimental results showed that the amount of EDCs adsorbed was neither affected by up to 10.0 mM NaCl nor significantly interfered by up to 10.0 mg/L humic acid. Negligible influence was observed from pH 3.3 to pH 6.8, but a decrease started at pH 9. Freundlich isotherm parameters indicated binding capacities in the order of DES?>?E2?～?E1?>?BPA. The applicability of class-selective removal was verified using river water samples spiked with these EDCs at 10 μg/L; the binding efficiencies were 90, 90, 88, and 98 % for estrone (E1), 17β-estradiol (E2), bisphenol A (BPA), and diethylstilbestrol (DES), respectively. A reuse investigation verified constant binding capacities exhibiting <2 % reduction after seven cycles of regeneration.     

The treatment of black-odorous water using tower bipolar electro-flocculation including the removal of phosphorus,turbidity, sulfion,and oxygen enrichment

• An innovative bubble column tower BPE was designed to treat the black-odorous water. • PO₄³⁻, S²⁻ and turbidity were removed, and dissolved oxygen was enriched in the BPE. • An aluminum bipolar electrode gave the best oxygen enrichment and pollutant removal. • Changes of microorganisms confirmed the improvement in water quality achieved. The large amount of municipal wastewater discharged into urban rivers sometimes exceeds the rivers’ self-purification capacity leading to black-odorous polluted water. Electro-flocculation has emerged as a powerful remediation technology. Electro-flocculation in a bubble column tower with a bipolar electrode (BPE) was tested in an attempt to overcome the high resistance and weak gas-floatation observed with a monopolar electrode (MPE) in treating such water. The BPE reactor tested had a Ti/Ta₂O₅-IrO₂ anode and a graphite cathode with an iron or aluminum bipolar electrode suspended between them. It was tested for its ability to reduce turbidity, phosphate and sulphion and to increase the concentration of dissolved oxygen. The inclusion of the bipolar electrode was found to distinctly improved the system’s conductivity. The system’s electro-flocculation and electrical floatation removed turbidity, phosphate and sulphion completely, and the dissolved oxygen level improved from 0.29 to 6.28 mg/L. An aluminum bipolar electrode performed better than an iron one. Changes in the structure of the microbial community confirmed a significant improvement in water quality.     

PDMDAAC改性粉煤灰预处理油墨废水的研究

本文介绍聚二甲基二烯丙基氯化铵（PDMDAAC）改性粉煤灰的制备,并用制备的改性粉煤灰处理实际油墨废水。研究改性粉煤灰的投加量、反应时间、废水pH值、水温对废水有机物CODG和色度去除率的影响。研究表明在最佳的试验条件下．油墨废水的脱色率高达94％,CODCr去除率也达到了74％。     

重金属汞对土壤酸性磷酸酶的影响及其机理

通过土壤培养试验、紫外吸收光谱和荧光光谱技术 ,研究了重金属汞对土壤酸性磷酸酶催化活性、动力学性质的影响及机理 .结果表明 ,汞对土壤酸性磷酸酶活性、酶促反应动力学性质均具有显著影响 .汞对土壤酸性磷酸酶的作用可能为非竞争与反竞争混合的抑制类型 .而汞对麦芽酸性磷酸酶的抑制作用为反竞争性抑制 .重金属汞通过改变土壤酸性磷酸酶分子色氨酸、酪氨酸残基的微环境致使酶活性中心的构象发生变化 ,进而对酶的催化活性产生影响     

基于VFSMOD模型的不同情景下河流生态缓冲带的截留效果模拟

采用植被缓冲带模型(VFSMOD)对不同情景下河流生态缓冲带(简称"缓冲带")的截留效果进行了模拟,考察了土壤可蚀性、土壤质地、坡度、径流源区长度、缓冲带宽度等对缓冲带拦截效果的影响.结果 表明:随着土壤可蚀性因子(K因子)变大,土壤可蚀性增强,缓冲带泥沙输入量变大;坡度变大,拦截效率下降,在坡度分别为1％、3.5％、...     

Evaluating the impact of sulfamethoxazole on hydrogen production during dark anaerobic sludge fermentation

● SMX promotes hydrogen production from dark anaerobic sludge fermentation. ● SMX significantly enhances the hydrolysis and acidification processes. ● SMX suppresses the methanogenesis process in order to reduce hydrogen consumption. ● SMX enhances the relative abundance of hydrogen-VFAs producers. ● SMX brings possible environmental risks due to the enrichment of ARGs. The impact of antibiotics on the environmental protection and sludge treatment fields has been widely studied. The recovery of hydrogen from waste activated sludge (WAS) has become an issue of great interest. Nevertheless, few studies have focused on the impact of antibiotics present in WAS on hydrogen production during dark anaerobic fermentation. To explore the mechanisms, sulfamethoxazole (SMX) was chosen as a representative antibiotic to evaluate how SMX influenced hydrogen production during dark anaerobic fermentation of WAS. The results demonstrated SMX promoted hydrogen production. With increasing additions of SMX from 0 to 500 mg/kg TSS, the cumulative hydrogen production elevated from 8.07 ± 0.37 to 11.89 ± 0.19 mL/g VSS. A modified Gompertz model further verified that both the maximum potential of hydrogen production (P_m) and the maximum rate of hydrogen production (R_m) were promoted. SMX did not affected sludge solubilization, but promoted hydrolysis and acidification processes to produce more hydrogen. Moreover, the methanogenesis process was inhibited so that hydrogen consumption was reduced. Microbial community analysis further demonstrated that the introduction of SMX improved the abundance of hydrolysis bacteria and hydrogen-volatile fatty acids (VFAs) producers. SMX synergistically influenced hydrolysis, acidification and acetogenesis to facilitate the hydrogen production.     

有机磷酸HEDP稳定垃圾焚烧飞灰重金属的研究

研究了有机磷酸羟基亚乙基二膦酸(HEDP)对生活垃圾焚烧飞灰中重金属的稳定方法.通过对不同HEDP投加量处理后的飞灰试样作危险废物浸出毒性鉴别试验,分析HEDP最佳使用剂量,并评价了稳定化飞灰的长期稳定性.结果表明,HEDP最适使用剂量为0.03 Ml/g(以商品级HEDP与飞灰的体积质量比计),处理后飞灰与原状飞灰相比,Pb、Zn和Hg的浸出浓度分别降低了98.3%、99.5%和85.0%.HEDP对飞灰中重金属稳定效果排序为:Pb＞Zn＞Hg＞Ni＞Cu＞Cd＞CrHAs.重金属pH相关浸出测试(pH-dependent leaching tests)表明:经0.03mL/g HEDP稳定处理的飞灰,在0.3 mol/L HNO3和0.3 mol/L NaOH的浸取条件下,其重金属浸出浓度均低于国家危险废物鉴别标准,显示具有良好的长期稳定性.