海绵铁还原耦合活性炭吸附-微波再生技术降解甲基橙

采用海绵铁(s-Fe0)还原耦合活性炭(GAC)吸附-微波(MW)再生技术降解甲基橙(MO)溶液,重点考察了s-Fe0投加量、粒径、微波功率等因素对MO去除效果的影响。结果表明,s-Fe0投加剂量为15.0 g/L、粒径为3～5 mm、超声波功率为200 W,反应1 h,MO的去除率为94.2%。其次,采用GAC吸附-MW再生技术(800 W,照射1 min)循环处理上述脱色后的MO废水。结果表明,GAC吸附可有效降低废水的生物毒性及残留的染料、TOC和总铁离子浓度,且MW辐射可有效再生吸附饱和的GAC颗粒。因此,s-Fe0还原耦合GAC吸附-MW再生技术可以有效降解MO染料,具有处理效果好、实现资源循环利用等优点。     

铁碳布空气阴极微生物燃料电池的产电性能

使用铁代替铂作为阴极催化剂,制作含铁碳布空气阴极并构建单室MFC(Fe-C-ACMFC)。以乙酸钠为燃料,通过稳态放电法和循环伏安测试等测试手段,分析了不同铁含量对Fe-C-ACMFC产电性能的影响以及性能最优Fe-C-ACM-FC的连续运行稳定性。结果表明,随着铁含量的增加,Fe-C-ACMFC启动期开路电压(OCV)逐步提高,达到峰值后,随着铁含量的增加而降低;同样,Fe-C-ACMFC极化性能和功率密度等产电性能也随铁含量的增加先升高再降低;当铁含量为0.7 mg/cm2时,MFC的产电性能最优,最大开路电压为593 mV,表观内阻为89Ω,最大功率密度达到12 907 mW/m3,并且经循环伏安测试,电池放电容量几乎没有变化,表明Fe-C-ACMFC的性能比较稳定,能够长期运行。由于铁催化剂价格远远低于铂催化剂,因此,铁碳布空气阴极MFC更利于推广应用。     

预煅烧铜渣与生物质混合催化气化

在热重分析仪上,以1 000℃预煅烧5h铜渣为催化剂,在氧气气氛下,进行生物质的催化气化实验.在预煅烧铜渣/生物质(质量比)为0.5～2.5范围内,考察铜渣的催化性能.实验结果表明,在所研究的比例范围内,生物质热解阶段和气化阶段的最大失重速率呈现先增大后减小的趋势,且在比例为2时都达到最大值.研究表明,铜渣中的铁氧化物在气化过程中被还原为金属Fe和FeO,而生成的FeO与SiO2反应生成Fe2SiO4.在铜渣与生物质混合催化气化反应中,金属Fe从铜渣中的铁氧化物中被还原出来而提供了活性位,表明铜渣因含有易还原的铁元素而具有催化作用.     

水源切换条件下模拟管网铁离子释放控制简

用北京市某供水区域铸铁管段搭建2套模拟管网装置,对水源切换条件下管网铁离子释放的控制进行了研究。实验过程中利用地下水为水源,通过调节进入管网的水中氯浓度为1.0~1.1 mg/L,溶解氧浓度为7~8 mg/L,经过40 d运行后,管垢成分主要为α-FeOOH和Fe₃O₄。切换地表水源后,新的管垢组成更有助于铁氧化物中铁的氧化还原重新达到平衡,从而可以有效减少水源切换条件下铁离子的释放,管网出水浊度也得到很好的控制,保持了管网水质稳定性。     

感应热固定床CWPO处理染料废水的催化剂制备及其性能

感应热固定床(IHFB)作为新型热传递方式下非均相反应器,利用感应加热铁磁材料将热量传递至液相,形成固液界面高温微反应区,实现有机废水低能高效降解。实验以海绵铁为感应内核,淀粉为碳源,0.2 mol/L硝酸镍为浸渍溶液,按照一定固液比采用浸渍焙烧法制备了C包覆表层负载NiO的感应热催化剂(mNiO/C),对mNiO/C材料的形态结构进行了SEM、ES和XRD表征。结果表明,铁碳比(Fe/C)3∶1、浸渍固液比1∶1、500℃下焙烧2 h,重复包覆3次所得的mNiO/C材料结构最稳定、催化活性最大。并以直接紫D-BL模拟废水为进水,考察了流动状态下感应热固定床催化湿式过氧化氢氧化法(CWPO)降解染料废水的性能,在最优条件下,染料降解率高达80%以上。     

Comparison of biotic and abiotic treatment approaches for co-mingled perchlorate, nitrate, and nitramine explosives in groundwater

Biological and abiotic approaches for treating co-mingled perchlorate, nitrate, and nitramine explosives in groundwater were compared in microcosm and column studies. In microcosms, microscale zero-valent iron (mZVI), nanoscale zero-valent iron (nZVI), and nickel catalyzed the reduction of RDX and HMX from initial concentrations of 9 and 1 mg/L, respectively, to below detection (0.02 mg/L), within 2 h. The mZVI and nZVI also degraded nitrate (3 mg/L) to below 0.4 mg/L, but none of the metal catalysts were observed to appreciably reduce perchlorate ( approximately 5 mg/L) in microcosms. Perchlorate losses were observed after approximately 2 months in columns of aquifer solids treated with mZVI, but this decline appears to be the result of biodegradation rather than abiotic reduction. An emulsified vegetable oil substrate was observed to effectively promote the biological reduction of nitrate, RDX and perchlorate in microcosms, and all four target contaminants in the flow-through columns. Nitrate and perchlorate were biodegraded most rapidly, followed by RDX and then HMX, although the rates of biological reduction for the nitramine explosives were appreciably slower than observed for mZVI or nickel. A model was developed to compare contaminant degradation mechanisms and rates between the biotic and abiotic treatments.     

零价铁(Fe~0)共存下TiO_2光催化降解特性的研究

针对TiO2光催化反应中易出现电子-空穴对(e--h+)的复合、而Fenton技术又面临铁污泥的问题,向TiO2光催化反应中加入零价铁(Fe0)。通过调节溶液pH,使Fe0缓释Fe2+,且反应之后的pH仍能满足TiO2光催化反应所需。溶液中的Fe2+,一方面能减弱TiO2光催化产生的e--h+的复合,提高TiO2光催化反应的效率;另一方面,在紫外灯照射下也可以起到光Fenton降解作用。研究结果表明,Fe0共存下TiO2光催化对废水的降解率高于单独使用TiO2光催化或光Fenton对废水的降解率。对Fe0共存下TiO2光催化降解废水的褪色率的动力学研究表明,该反应属于三级动力学反应,且其对有机物的降解具有TiO2光催化和光Fenton加合增效的效果。     

Metabolism of benzo[a]pyrene in peroxynitrite/Fe(Ⅲ) porphyrin system

The peroxynitrite/porphyrin biomimetic system was established to investigate the effects of peroxynitrite on benzo[a]pyrene (B[a]P) metabolism. Through the comparison of three model systems consisting of different iron porphyrins, we found that the peroxynitrite/T(p-Cl)PPFeCl system showed the highest catalytic efficiency in the metabolism of B[a]P. We analyzed the B[a]P metabolites produced from this system by RP-HPLC method and firstly identified the formation of nitrobenzo[a]pyrenes which are the special metabolites of B[a]P induced by peroxynitrite.     

Degradation of carbamazepine by MWCNTs-promoted generation of high-valent iron-oxo species in a mild system with O-bridged iron perfluorophthalocyanine dimers

Metal phthalocyanine has been extensively studied as a catalyst for degradation of carbamazepine (CBZ). However, metal phthalocyanine tends to undergo their own dimerization or polymerization, thereby reducing their activity points and affecting their catalytic properties. In this study, a catalytic system consisting of O-bridged iron perfluorophthalocyanine dimers (FePcF₁₆-O-FePcF₁₆), multi-walled carbon nanotubes (MWCNTs) and H₂O₂ was proposed. The results showed MWCNTs loaded with FePcF₁₆-O-FePcF₁₆ can achieve excellent degradation of CBZ with smaller dosages of FePcF₁₆-O-FePcF₁₆ and H₂O₂, and milder reaction temperatures. In addition, the results of experiments revealed the reaction mechanism of non-hydroxyl radicals. The highly oxidized high-valent iron-oxo (Fe(IV)=O) species was the main reactive species in the FePcF₁₆-O-FePcF₁₆/MWCNTs/H₂O₂ system. It is noteworthy that MWCNTs can improve the dispersion of FePcF₁₆-O-FePcF₁₆, contributing to the production of highly oxidized Fe(IV)=O. Then, the pathway of CBZ oxidative degradation was speculated, and the study results also provide new ideas for metal phthalocyanine-loaded carbon materials to degrade emerging pollutants.     

磷酸盐对硫化亚铁(FeS)吸附Sb(Ⅲ)的影响机理研究

还原环境(如湖泊、海洋沉积物)中,FeS是重金属的重要载体。在富营养化过程中,磷酸盐可能对重金属在FeS上的吸附行为产生重要影响。本文通过不同pH、磷酸盐浓度的批次试验,结合X射线衍射仪(XRD)和场发射透射电子电镜-能谱仪(TEM-EDS)固体分析手段,进行磷酸盐对FeS吸附Sb(Ⅲ)的影响研究。结果表明：酸性和中性条件下,磷酸盐会与FeS溶解释放的Fe(Ⅱ)反应生成磷酸亚铁沉淀,促进FeS溶解,同时释放出更多的H₂S(aq)/HS^-与Sb(Ⅲ)结合形成Sb₂S₃沉淀,从而促进溶液中Sb(Ⅲ)的吸附。碱性条件下,FeS对Sb(Ⅲ)只有吸附作用,而磷酸盐会占据FeS表面部分的吸附位点,与Sb(Ⅲ)形成竞争关系,进而抑制溶液中Sb(Ⅲ)的吸附。