硅铝比和NiO对ZSM-5协同低温等离子体降解甲苯的影响

研究了不同硅铝比的ZSM-5与Ni/ZSM-5分子筛协同低温等离子体技术对甲苯降解性能的影响.以Ni O(Nickel Oxide)为活性组分,采用浸渍法对ZSM-5分子筛进行改性,利用氮气吸附脱附(BET)、X射线衍射仪(XRD)、X射线光电子能谱分析(XPS)、H_2程序升温还原(H_2-TPR)、NH_3程序升温脱附(NH_3-TPD)、Toluene程序升温脱附(Toluene-TPD)等技术表征样品的物理化学性质.考察了硅铝比对ZSM-5与Ni/ZSM-5分子筛体系中甲苯的吸附性能,研究了不同放电电压下硅铝比对甲苯降解率、碳平衡及二氧化碳选择性的影响,并采用气相色谱-质谱联用仪(GC-MS)分析了催化剂表面的有机产物.结果表明:硅铝比不但影响分子筛本身的物理化学特性(比表面积、氧化还原性能、表面酸性、疏水性等),还会影响Ni的负载形态和方式,更高的硅铝比与Ni O的负载能促进甲苯深度氧化,减少副产物,提高碳平衡和二氧化碳选择性.     

臭氧/沸石工艺处理水中硝基苯的机理探讨

考察了臭氧在H型沸石上吸附与分解情况,发现臭氧在H型沸石上发生了吸附与分解,并且吸附过程与脱附过程是不可逆的,其脱附速率很快.在吸附分解平衡后,臭氧在H型沸石上的吸附分解量与进水臭氧浓度成正比.而在1×10^-3 mol/L Na⁺存在条件下,被Na⁺交换的H型沸石基本不吸附分解臭氧.考察不同阳离子和不同型号沸石对臭氧/沸石工艺去除硝基苯的影响,发现Ca²⁺的影响最大,另外Na型沸石和NH₄型沸石在降解硝基苯的过程中,硝基苯的去除效率逐渐提高,并且Na型沸石中的Na⁺发生溶出,表明盐析效应影响臭氧扩散进入沸石孔道进行自分解和催化分解的能力.脱铝后的H型沸石没有体现降解硝基苯的效果.最后在pH 3.0时,H型沸石也能吸附分解一部分臭氧,说明H⁺的影响不如其它阳离子.     

不同孔径HZSM-5协同低温等离子体催化降解甲苯性能研究

研究了HZSM-5分子筛孔径对其在等离子体场内催化降解甲苯的影响.采用化学液相沉积法对HZSM-5分子筛进行改性,利用XRD、氮气吸附脱附等方法表征样品的骨架结构和表面性质,并用择形吸附实验对样品孔径进行表征.同时,评价了HZSM-5分子筛体系中降解甲苯的性能,研究了分子筛吸附甲苯性能及臭氧的产量,并采用飞行时间质谱(TOF-MS)和气相色谱-质谱联用仪(GC-MS)分析了反应产生的有机副产物.结果表明:液相沉积法成功调控了HZSM-5孔径,样品孔径随沉积剂用量增加而减小;同时,样品均具有相同的MFI骨架结构,比表面积和孔容相差不大.HZSM-5的孔径尺寸对甲苯去除率影响不大,但对碳平衡有影响,孔径越大,碳平衡越好.孔径较大的HZSM-5分子筛对甲苯具有更大的吸附速率和吸附容量,同时更多臭氧参与反应,生成·OH和O·,促进甲苯深度氧化,减少副产物,提高碳平衡.     

Metal loaded zeolite adsorbents for hydrogen cyanide removal

Metal(Cu,Co,or Zn) loaded ZSM-5 and Y zeolite adsorbents were prepared for the adsorption of hydrogen cyanide(HCN) toxic gas.The results showed that the HCN breakthrough capacity was enhanced significantly when zeolites were loaded with Cu.The physical and chemical properties of the adsorbents that influence the HCN adsorption capacity were analyzed.The maximal HCN breakthrough capacities were about the same for both zeolites at 2.2 mol of HCN/mol of Cu.The Cu2p XPS spectra showed that the possible species present were Cu2O and CuO.The N1s XPS data and FT-IR spectra indicated that CNwould be formed in the presence of Cu+/Cu2+ and oxygen gas,and the reaction product could be adsorbed onto Cu/ZSM-5 zeolite more easily than HCN.     

NanoChem分子筛对高氨氮废水去除效果的研究

采用新型的离子吸附交换材料NanoChem分子筛,研究对高浓度氨氮的模拟废水和实际垃圾渗滤液的去除效果.结果显示,氨氮吸附符合Langmuir吸附等温线,其中单位NanoChem分子筛吸附氨氮饱和浓度以N计算为364 mg.g-1,对高浓度氨氮的吸附能力比天然沸石或者微孔分子筛强3～30倍.在间歇实验中考察了操作参数对氨氮去除的影响,NanoChem分子筛20 h后基本达到离子交换平衡;氨氮去除量随着初始浓度的增加而增加,而去除率则随着初始浓度的增加而减少;同时溶液初始pH值不但影响氨氮去除率还影响离子交换特性;再生前后氨氮去除效果变化不大,重复性强.动态连续流研究发现NanoChem分子筛能用于实际高浓度氨氮废水的去除,去除率可达到100%.     

纳米片层状ZSM-5分子筛制备及其对室内环境VOCs吸附性能

合成了1种新型分子结构的bola型表面活性剂,并以其为模板,以正硅酸乙酯、偏铝酸钠为硅源和铝源,按n（NaOH）∶n（NaAlO₂）∶n（SiO₂）∶n（SDA）∶n（H₂O）为30∶2.5∶120∶5∶4800进行配比,采用水热法制备出具有纳米片层结构的ZSM-5分子筛（H-ZSM-5）。采用扫描电镜、透射电镜、X射线和N₂吸脱附等技术表征所制备的片层ZSM-5分子筛。对传统ZSM-5、H-ZSM-5进行了甲醛分子静态吸附实验,发现H-ZSM-5分子筛静态吸附量显著高于传统微孔ZSM-5。采用较大分子直径的甲苯蒸汽分子评价吸附性能发现,纳米片层状H-ZSM-5分子筛具备吸附较大分子直径VOCs的能力,可以用于室内较大分子VOCs的净化去除。     

等离子体催化降解甲苯途径的原位红外研究

考察了在常温常压条件下,等离子体分别协同SiO₂、Al₂O₃、NiO/Al₂O₃降解甲苯的性能,并从材料的介电常数、对甲苯的吸附性及臭氧分解能力等角度分析了不同活性表现的原因,同时,采用原位红外技术研究了甲苯降解过程中催化剂表面吸附物种的变化.结果表明,当甲苯浓度为100 ppm,气体流量为100 mL·min^-1时,一定范围内,甲苯降解率随着能量密度、介电常数、吸附性及臭氧分解能力的提高而提高.甲苯在催化剂表面的吸附对其降解途径有十分重要的影响:在放电区域中加入SiO₂,甲苯仍然在气相中完成降解;而存在Al₂O₃ 及NiO/Al₂O₃时,甲苯氧化成苯甲酸的过程主要发生在催化剂表面,是甲苯催化降解的关键步骤,苯甲酸在活性位点的积累将降低催化剂的反应活性.     

改性沸石湿地脱氮除磷效能及机制

为明确改性沸石湿地对分散性农村生活污水中氮磷的去除效能,并探索其脱氮除磷机制,将改性沸石作为折流湿地填料层填料,应用于厌氧折流板反应器(ABR)+折流湿地(BFCW)组合工艺,为苏州市农村生活污水处理提供新途径.结果表明,改性沸石湿地对氮磷去除良好且稳定,脱氮量和除磷量较沸石湿地分别增大1.8%和1倍多.湿地主要通过填料的吸附截留作用脱氮除磷,以Ca-P和Al-P为主要沉淀磷素形式,植物的泌氧和吸收作用有助于稳定出水水质.湿地前端和后端分别以填料的吸附截留作用和微生物的硝化反硝化作用为主要脱氮途径.改性过程对沸石磷素吸附沉淀性能的大幅提升是在多重途径的协同作用下实现的,湿地构型和植物根系的影响是造成相同区域填料氮磷截留量差异的主要原因.硝化作用强度的高低是改性沸石湿地脱氮效果及稳定性季节性波动的主因.     

Synergistic effects of non-thermal plasma-assisted catalyst and ultrasound on toluene removal

A wire-mesh catalyst coated by La_0.8Sr_0.2MnO₃ was combined with a dielectric barrier discharge (DBD) reactor for toluene removal at atmospheric pressure. It was found that toluene removal efficiency and carbon dioxide selectivity were enhanced in the catalytic packed-bed reactor. In addition, ozone and nitrogen monoxide from the gas effluent byproducts decreased. This is the first time that ultrasound combined with plasma has been used for toluene removal. A synergistic effect on toluene removal was observed in the plasma-assisted ultrasound system. At the same time, the system increased toluene conversion and reduced ozone emission.     

新型复合材料处理氮磷废水的性能研究

采用阳离子表面活性剂十六烷基三甲基溴化铵(Hexadecyl Trimethyl Ammonium Bromide, HDTMA)和稀土溶液氯化镧(LaCl₃)对人造沸石进行改性,以增强其对水中氨氮和总磷的同步去除效果.结果表明,HDTMA和LaCl₃可有效负载于人造沸石表面,且在pH为7的条件下,改性沸石对氨氮和总磷的去除率分别由改性前的75%和1%提高到95.67%和91.96%.影响因素的实验表明,改性沸石对不同浓度废水的氨氮和总磷去除率均达到90%以上;氮、磷的去除率随改性沸石投加量的增加而上升;准二级动力学模型适合描述改性沸石对氨氮吸附的动力学过程,准一级动力学模型适合描述改性沸石对总磷吸附的动力学过程;吸附等温线说明改性沸石对水中氨氮的吸附属于离子交换,对水中磷酸盐的吸附包含离子交换和化学吸附两种过程.此外,通过再生性能、负载强度和离子竞争的试验证明改性沸石能应用于实际生化尾水的氮、磷去除.     

两种不同硅铝比的ZSM-5型分子筛去除水中Pb~(2+)的研究

考察硅铝比不同的ZSM-5两种分子筛(25H和50H,25和50为硅铝比:SiO2/Al2O3)对水中Pb2+离子的吸附去除效能。两种材料均可有效吸附去除水中Pb2+离子,吸附等温线符合Langmuir吸附等温式,25H的最大吸附容量达22.22mg/g,吸附动力学符合假二阶动力学模型,吸附速率及吸附容量顺序为:25H>50H。随着投加量的增加,分子筛对Pb2+的去除率呈上升趋势。常见共存阳离子均对分子筛吸附去除Pb2+产生影响。     

粉煤灰合成沸石对Cr~(3+)的去除能力及影响因素研究

研究了粉煤灰合成沸石对废水中Cr~(3+)的去除能力,分析了接触时间、pH、沸石投加量、Cr~(3+)初始浓度、温度等因素对Cr~(3+)过程吸附的影响.试验结果表明,合成沸石的主要成分为一种无名沸石.合成沸石对Cr~(3+)具有较快的吸附速度,吸附过程符合二级反应动力学.在pH 2.0~12.0范围内,合成沸石对Cr~(3+)都具有较高的去除效率.Cr~(3+)去除率随着沸石投加量的增加而增加,随着Cr~(3+)初始浓度的升高而降低.Langmuir等温线模型对吸附数据具有更好的非线性拟合效果,所得最大吸附量为111.7 mg·g-1.热力学研究表明吸附过程为吸热反应.与原沸石相比,利用Na Cl再生后的沸石的Cr~(3+)去除率下降11.42%~14.10%,但仍可循环利用.上述实验结果表明本文合成的沸石具有较好的除Cr~(3+)的应用潜力.     

Influence of supports on photocatalytic degradation of phenol and 4-chlorophenol in aqueous suspensions of titanium dioxide

The photocatalytic degradation of phenol and 4-chlorophenol (4-CP) in aqueous suspensions with the use of titanium dioxide (TiO2 ) under UV irradiation was examined. The effects of different supporting materials mixed physically with TiO2 were studied to achieve maximum degradation efficiency. Among the three supports, namely activated carbon (AC), silica (SiO2 ) and zeolite (ZSM-5), all exhibited paramount efficiency for degradation of phenol and 4-CP and was better than TiO2 alone. The optimum concentration was found to be 50 mg for all supporting materials. The efficiency order of the three supports was as follows: AC > ZSM-5 > SiO2 , respectively. Whilst, the degradation of phenol and 4-CP was improved from 70.6% to 87.6% and 80.6% to 89.7%, respectively, within 120 min photocatalysis in the presence of optimal amount of AC. The degradation was also comparatively enhanced in the presence of cheaper rice husk and the activity was closed to ZSM-5 and lower than AC.     

CoCuMnOx光催化氧化多组分VOCs特性及其动力学

实验采用共沉淀法制备太阳能吸收涂料Co Cu Mn O_x,探究可见光下甲苯、乙酸乙酯和丙酮混合3组分VOCs的光催化氧化性能,并从动力学角度分析各自的反应速率变化.结果表明,单组分VOCs初始浓度400 mg·m~(-3)、光照距离120 mm,350cm~2镜面载体负载1 g Co Cu Mn O_x下用100 W卤钨灯照射6 h后,甲苯转化率为57%、乙酸乙酯为62%、丙酮为58%;由于3组分VOCs之间相互竞争,甲苯、乙酸乙酯和丙酮的转化率较单组分下降了5%~26%.单组分与3组分VOCs的光催化均符合假一级反应动力学,单组分甲苯、乙酸乙酯和丙酮的反应速率分别为0.002、0.002 8和0.002 33 min~(-1);混合3组分中其反应速率为单组分的0.49~0.88倍.     

常见基质对暴雨径流中磷素去除效果的比较研究

选取沙子、土壤、沸石、白矾石、陶粒、钢渣、石灰石、蛭石和碎石9种常见的基质,通过吸附和解吸实验、静态吸附实验和动态模拟实验,较为系统地研究了这些基质的吸附特性以及去除暴雨径流中低浓度磷素污染物的特性,并分析了影响基质去除磷素的影响因子.结果表明,9种供试基质对磷酸盐的动态去除效率要比其他形态磷高,对磷素的平衡吸附量大小顺序为：沸石、土壤、蛭石 ＞陶粒、钢渣、石灰石 ＞碎石、沙子、白矾石,对磷素的动态吸附能力为：沸石、石灰石、白矾石、土壤＞钢渣、碎石、沙子＞陶粒、蛭石.另外,蛭石、陶粒和钢渣在对暴雨径流中磷素的静态和动态吸附过程中出现了磷释放现象,其它基质对磷酸盐的动态吸附能力较强,去除率介于30%～87%.综合分析以上多种因素,为了去除暴雨径流中的低浓度磷素,沸石、石灰石和土壤是比较理想的工程基质材料.     

Co-adsorption of gaseous benzene, toluene, ethylbenzene, m-xylene (BTEX) and SO2 on recyclable Fe3O4 nanoparticles at 0-101% relative humidities

We herein used Fe3O4 nanoparticles(NPs) as an adsorption interface for the concurrent removal of gaseous benzene, toluene, ethylbenzene and m-xylene(BTEX) and sulfur dioxide(SO2), at different relative humidities(RH). X-ray diffraction, Brunauer–Emmett–Teller, and transmission electron microscopy were deployed for nanoparticle surface characterization.Mono-dispersed Fe3O4(Fe2O3·Fe O) NPs synthesized with oleic acid(OA) as surfactant, and uncoated poly-dispersed Fe3O4 NPs demonstrated comparable removal efficiencies.Adsorption experiments of BTEX on NPs were measured using gas chromatography equipped with flame ionization detection, which indicated high removal efficiencies(up to(95 ± 2)%) under dry conditions. The humidity effect and competitive adsorption were investigated using toluene as a model compound. It was observed that the removal efficiencies decreased as a function of the increase in RH, yet, under our experimental conditions, we observed(40 ± 4)% toluene removal at supersaturation for Fe3O4 NPs, and toluene removal of(83 ± 4)% to(59 ± 6)%, for OA-Fe3O4 NPs. In the presence of SO2, the toluene uptake was reduced under dry conditions to(89 ± 2)% and(75 ± 1)% for the uncoated and coated NPs, respectively, depicting competitive adsorption. At RH 100%,competitive adsorption reduced the removal efficiency to(27 ± 1)% for uncoated NPs whereas OA-Fe3O4 NPs exhibited moderate efficiency loss of(55 ± 2)% at supersaturation.Results point to heterogeneous water coverage on the NP surface. The magnetic property of magnetite facilitated the recovery of both types of NPs, without the loss in efficiency when recycled and reused.     

羟基磷灰石-四氧化三铁-沸石复合材料制备及去除水中刚果红研究

采用可溶性磷酸盐、钙离子、二价铁离子、三价铁离子和天然沸石等材料制备了羟基磷灰石-四氧化三铁-沸石(HAPFe3O4-沸石)复合材料,对该复合材料进行了表征,并考察了该复合材料对水中刚果红的吸附作用.结果表明,HAP-Fe3O4-沸石复合材料对水中的刚果红具备良好的吸附能力.当pH由3增加到4或由7增加到11时,HAP-Fe3O4-沸石复合材料对水中刚果红的去除能力下降;当pH由4增加到7时,对刚果红的吸附能力基本保持不变.HAP-Fe3O4-沸石复合材料对水中刚果红的去除率随吸附剂投加量的增加而增加,而对水中刚果红的单位吸附量则随吸附剂投加量的增加而降低.HAP-Fe3O4-沸石复合材料对水中刚果红的吸附动力学过程可以较好地采用准二级动力学模型加以描述,对刚果红的吸附平衡数据可以采用Langmuir和Freundlich等温吸附模型加以描述.根据Langmuir模型确定的最大吸附容量为117 mg·g-1.(pH 7和303 K).HAP-Fe3O4-沸石复合材料对水中刚果红的吸附是自发吸热并伴随熵增加的过程.当pH为7时,HAP-Fe3O4-沸石复合材料吸附水中刚果红的主要机制包括表面配位作用、氢键作用以及路易斯酸碱反应.采用热再生的方法可以使吸附刚果红后的HAP-Fe3O4-沸石复合材料得到再生,热再生后的复合材料可以循环使用并且对水中刚果红的吸附性能良好.X射线衍射分析结果表明HAP-Fe3O4-沸石复合材料含Fe3O4,磁滞回线结果表明HAP-Fe3O4-沸石复合材料具备较高的磁饱和强度,复合材料吸附刚果红后可以很容易地通过外加磁场的作用快速地与水溶液分离.结果表明,HAP-Fe3O4-沸石复合材料适合作为一种吸附剂去除废水中的刚果红.     

非均相催化臭氧处理高浓度制药废水的研究

非均相催化臭氧是一种对高浓度制药废水进行预处理的有效方法.本研究采用单一活性炭吸附、单一臭氧氧化和臭氧/活性炭联用3种体系对实际制药废水进行预处理,并对处理过程中的工艺参数进行优化.结果表明,相比单一活性炭吸附和单一臭氧降解体系,臭氧/活性炭联用体系能显著提高COD、TOC的去除率及BOD5/COD值,并显示出良好的协...     

超滤膜负载UiO-66@Fe3O4@UiO-66强化PPCPs去除和膜污染控制

本研究通过聚偏氟乙烯(PVDF)膜内负载具有协同吸附和催化作用的金属有机骨架(MOFs),吸附去除水中药品及个人护理品(PPCPs),并且达到膜滤过程中多功能材料吸附能力再生和膜污染控制的双重目的.在膜吸附方面,共混基质膜(MMMs)内MOFs材料UiO-66@Fe₃O₄@UiO-66能够有效吸附以水杨酸(SA)和邻-苯二甲酸二甲酯(DMP)为模板化合物的两种常见PPCPs.在膜催化再生方面,UiO-66@Fe₃O₄@UiO-66中的Fe₃O₄能够催化H₂O₂生成强氧化性的羟基自由基(HO·),实现对MOFs/PVDF膜吸附能力再生和膜内污染控制的耦合.结果表明,pH=7±0.1条件下,10%MOFs/PVDF膜对0.1 mmol·L^-1SA和DMP吸附去除率最高,它们的去除率可分别达到64.2%和46.1%.除此之外,膜内UiO-66@Fe₃O₄...     

Toluene removal characteristics by a superimposed wire-plate dielectric barrier discharge plasma reactor

A superimposed wire-plate dielectric barrier discharge reactor was used to remove toluene in this study. The effects of oxygen content, gas flow rate, gas initial concentration and with/without catalyst on toluene decomposition were investigated. It was found that an optimal toluene removal was achieved when the oxygen content was about 5%. Under this condition, the highest toluene removal efficiency of 80.8% was achieved when the gas concentration was 80 mg/m^3. The toluene removal efficiency decreased with the increase of the gas flow rate and the initial concentration of toluene. In addition, the ozone concentration decreased with the increase of the initial concentration of toluene. It suggested that combining DBD （dielectric barrier discharge） with Co3O4/Al2O3/foam nickel catalyst in-situ could improve the toluene removal efficiency and suppress ozone formation. Products analysis showed that the main products were CO and CO2 when oxygen was more than 5%.