NOx存在条件下相对湿度对甲苯氧化产物的影响

利用流动管反应器模拟甲苯与氧化剂×OH在NO_x存在条件下的反应,定量测定了不同相对湿度条件下（17.5%、35%、50%、70%）反应生成的部分气相产物和颗粒相产物,计算了不同相中产物产率,测量了不同相对湿度下的颗粒相有机碳（OC）产率,推导了相对湿度对甲苯氧化反应的影响机制.结果表明,相对湿度不仅对甲苯与×OH反应途径比例有影响,还对产物的产率及氧化程度有影响.     

不同酸性气体及相对湿度对海盐氯损耗过程的影响

使用在广州南村站、深圳竹子林站及西涌站的MARGA仪器实测资料,分析了不同酸性气体及相对湿度对海盐氯损耗过程的影响.在分析深圳竹子林站、西涌站的海盐氯损耗中发现,竹子林站氯损耗平均为48.0％,西涌站海盐氯损耗平均为56.9％,氯损耗的峰值一般出现于下午14时.西涌站、竹子林站和广州南村站酸性气体和碱性气体均以HNO2、SO2、NH3为主,但各站点的比例分布不同,西涌站以HNO2最多(42％),SO2(32％)次之;竹子林站以NH3与SO2为主,百分比分别为36％和34％;广州南村站以SO2为主(58％),NH3次之(20％);而三站HNO3所占比例很小,均为7％.另外,分析了HCl的来源,主要关注了海盐粒子中的NaCl与HNO3反应、NH4Cl的挥发及H2SO4与NaCl的反应这3个来源,发现西涌站与竹子林站HCl和HNO3之间的线性关系较好(R2西涌=0.689,R2竹子林=0.594),说明西涌站与竹子林站的HCl主要来源于NaCl与HNO3反应过程中Cl被HNO3置换而成;而广州南村站二者线性关系较差(R2南村=0.295),说明还存在其他的损耗机制.在研究相对湿度对氯损耗的影响中发现,相对湿度低时氯损耗更容易发生.     

Effect of TiO2 calcination temperature on the photocatalytic oxidation of gaseous NH3

Carbon-modified titanium dioxide(TiO2) was prepared by a sol-gel method using tetrabutyl titanate as precursor, with calcination at various temperatures, and tested for the photocatalytic oxidation(PCO) of gaseous NH3 under visible and UV light. The test results showed that no samples had visible light activity, while the TiO2 calcined at 400℃ had the best UV light activity among the series of catalysts, and was even much better than the commercial catalyst P25. The catalysts were then characterized by X-ray diffractometry, Brunauer-Emmett-Teller adsorption analysis, Raman spectroscopy, thermogravimetry/differential scanning calorimetry coupled with mass spectrometry, ultraviolet-visible diffuse reflectance spectra, photoluminescence spectroscopy and in situ diffuse reflectance infrared Fourier transform spectroscopy. It was shown that the carbon species residuals on the catalyst surfaces induced the visible light adsorption of the samples calcined in the low temperature range( 300℃). However, the surface acid sites played a determining role in the PCO of NH3 under visible and UV light over the series of catalysts. Although the samples calcined at low temperatures had very high SSA, good crystallinity, strong visible light absorption and also low PL emission intensity, they showed very low PCO activity due to their very low number of acid sites for NH3 adsorption and activation. The TiO2 sample calcined at 400℃ contained the highest number of acid sites among the series of catalysts, therefore showing the highest performance for the PCO of NH3 under UV light.     

二氧化钛复合型催化剂制备及其微波辅助催化氧化甲苯性能

实验采用溶胶凝胶法和传统浸渍法制备了TiO2-分子筛复合载体及复合载体负载过渡金属与稀土元素催化剂,通过微波辅助催化氧化甲苯的性能实验考察其催化活性.结果表明,复合TiO2明显提高了载体结构的稳定性与耐温性,并使过渡金属铜(Cu)、锰(Mn)和稀土元素铈(Ce)等活性组分在催化剂表面的分散更均匀;在复合载体吸附、吸波性能与多相活性组分催化的共同作用下,Cu-Mn-Ce/TiO2-分子筛催化剂微波辅助催化氧化甲苯的完全燃烧温度仅为175℃,此时甲苯去除率可达99％;15 h的连续性实验表明,TiO2复合型催化剂具有良好的催化活性与稳定性.由催化剂表征分析结果可知,活性组分颗粒的均匀分布与铜、锰氧化物及铜锰尖晶石固溶物等活性相的存在促进了甲苯的催化氧化,锐钛矿型TiO2较高的电子迁移速率与催化剂孔径的增大均有助于甲苯的氧化降解.     

Si掺杂TiO2纳米管阵列制备、表征及其光催化氧化降解室内典型VOCs

以Na2SiF6/HF为电解液,采用阳极氧化法一步制备了Si掺杂的TiO2纳米管阵列光催化剂,通过SEM、XRD、DRS和EDX等表征手段对制备的催化剂进行了表征,并以甲苯为降解目标物,考察了Si掺杂的TiO2纳米管阵列光催化剂的活性以及各种反应参数对活性的影响.结果表明,TiO2纳米管阵列以锐钛矿和金红石2种晶形存在,Si高分散于TiO2纳米管的管壁上.Si的掺杂提高了TiO2对紫外光的吸收,其禁带宽度与TiO2相比发生了蓝移.Si掺杂的TiO2纳米管阵列具有较大比表面积.当以电解液中Na2SiF6浓度为0.03 mol·L-1,在400℃焙烧1 h制备的Si掺杂的TiO2纳米管阵列为光催化剂时,甲苯的降解率最高,降解率达到60%,与纯TiO2纳米管阵列相比,催化活性提了1倍.     

相对湿度、温度对胶合板甲醛释放的影响

测试了不同相对湿度、温度条件下密闭环境舱中胶合板释放的甲醛浓度,研究了相对湿度和温度对胶合板甲醛释放的影响规律.结果发现:开始3h内密闭舱内甲醛浓度迅速增加,之后7~8h甲醛浓度趋于平衡;相对湿度升高20%,密闭舱内甲醛平衡浓度增加了1.1~1.3倍;温度升高5℃,甲醛平衡浓度增加了1.3~2.5倍;利用变装载度法,求解了胶合板甲醛初始可释放浓度C_m,0、扩散系数D_m和界面气固分配系数K,探讨了相对湿度、温度对各释放参数的影响,构建了相对湿度与温度影响参数模型,模型预测了不同环境条件下的胶合板甲醛释放参数,预测值与实验结果吻合良好.     

TiO2光催化氧化苯酚动力学研究

以中压汞灯为光源,研究了苯酚在ＴｉＯ２水悬浮液中降解动力学,考察了苯酚在起始浓度,气相氧浓度,催化剂投加量（ＴｉＯ２）光强度以及催化剂煅烧温度对苯酚光解速率的影响,揭示了苯酚多相光催化氧化反应的特点,反应过程符合表现一级动力学规律,气相氧的影响为一级,苯酚初始浓度的影响为负一级,在一定光强度下,催化剂的投加量存在一最值值,说明有效光强度,气相氧以及催化剂投加量是光催化氧化反应的关键因素,适当地热处     

SiO2纳米粉掺杂对薄膜光催化剂结构和活性的影响

针对固定膜光催化剂吸附能力差的缺陷,在催化剂的涂覆溶胶中掺杂具有较大比表面积的SiO₂纳米粉制备了一种新的TiO₂薄膜.通过X射线衍射(XRD)、扫描电镜(TEM)和红外光谱(FTIR)等手段对催化剂进行表征发现,催化剂的晶相以锐钛矿为主,并含有少量的金红石,平均晶粒尺寸为27nm左右.其中掺杂的SiO₂以十几到几十纳米的无定型团簇形式分散于薄膜中,除了能增大薄膜的表面积外,对TiO₂的晶体结构和表面基团等性质几乎没有影响.光催化降解试验表明,SiO₂掺杂后薄膜的活性大大改善,并受掺杂SiO₂的原始粒径和掺杂量影响很大.此外,该催化剂还具有很好的稳定性,在连续30多天的使用中,对活性艳红X-3B的去除率一直维持在80%左右,活性未见降低.     

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.     

Pt/CeO2催化氧化甲苯反应机制研究

采用浸渍法制备了Pt/CeO_2和Pt/Al2O_3催化剂,并通过XRD、BET、ICP-OES、H2-TPR、XPS等手段表征其物理化学性质.结果发现,Pt/CeO_2和Pt/Al2O_3催化剂上Pt负载量约为0.6%,Al2O_3载体上Pt颗粒尺寸更小,Pt/CeO_2的可还原性更强.甲苯催化氧化活性评价结果表明,Pt/CeO_2催化剂表现出更好的催化活性,T50=170℃,T90=190℃.通过UV-Raman、甲苯TPD、GC/MS、In-situ FTIR等手段进一步研究发现,Pt/CeO_2活化甲苯及反应供氧的机制与Pt/Al2O_3存在区别,其活性更好是因为:(1)负载在CeO_2表面存在高电子密度的Pt原子,具有更强的活化甲苯能力,可以直接使苯基和甲基间的C—C链发生断裂;(2)Pt的负载促进了CeO_2氧空位形成,进一步提高了CeO_2的储氧性能,加速氧循环.除了Pt解离气相氧之外,CeO_2还可以提供活性氧物种参与催化氧化甲苯的反应,进一步提高甲苯催化氧化效率.     

Pt颗粒尺寸对Pt/CeO2催化氧化甲苯性能影响

使用乙二醇还原法制备了一系列不同尺寸的Pt-x纳米颗粒(x=1.41、1.57、1.79、1.95、2.12、2.32 nm),将其负载于棒状(rod)CeO_2载体上.考察了不同尺寸的Pt颗粒催化剂Pt-x/CeO_2-rod在甲苯催化氧化反应中的催化性能.结果显示,随着Pt颗粒尺寸的增加,催化剂活性先升高后降低.其中,Pt颗粒尺寸为1.79 nm时催化剂催化活性最好,T90=133℃.一般认为,Pt颗粒尺寸增加其分散度减小,导致催化活性降低.然而本实验结果表明,随Pt尺寸增加催化活性先升高后降低,并且基于催化剂表面Pt原子计算的TOFs(turnover frequencies)随Pt尺寸增加逐渐变大.紫外拉曼光谱(UV Raman)、XRD、XPS显示,随着Pt颗粒尺寸增加,催化剂Pt-x/Ce-rod表面氧空位的浓度逐渐增加.氧空位有效提高了催化剂晶格氧的流动,促进了氧气的吸附活化及传递过程.Pt/Ce催化剂催化氧化甲苯反应活性是Pt分散度以及CeO_2表面氧空位浓度双重作用的结果.     

Acid-assisted hydrothermal synthesis of nanocrystalline TiO2 from titanate nanotubes: Influence of acids on the photodegradation of gaseous toluene

In order to efficiently remove volatile organic compounds (VOCs) from indoor air, onedimensional titanate nanotubes (TiNTs) were hydrothermally treated to prepare TiO₂ nanocrystals with different crystalline phases, shapes and sizes. The influences of various acids such as CH₃COOH, HNO₃, HCl, HF and H₂SO₄ used in the treatment were separately compared to optimize the performance of the TiO₂ nanocrystals. Comparedwith the strong and corrosive inorganic acids, CH₃COOH was not only safer andmore environmentally friendly, but also more efficient in promoting the photocatalytic activity of the obtained TiO₂. Itwasobserved that the anatase TiO₂ synthesized in 15 mol/L CH₃COOH solution exhibited the highest photodegradation rate of gaseous toluene (94%), exceeding that of P25 (44%) by a factor ofmore than two. The improved photocatalytic activity was attributed to the small crystallite size and surface modification by CH₃COOH. The influence of relative humidity (20%-80%) on the performance of TiO₂ nanocrystals was also studied. The anatase TiO₂ synthesized in 15 mol/L CH₃COOH solution was more tolerant tomoisture than the other TiO₂ nanocrystals and P25.     

气温与湿度的交互作用对呼吸系统疾病的影响

为评价平均气温、相对湿度及其交互作用对呼吸系统疾病急诊就诊人数的影响,采用广义相加模型(GAM),在控制了时间长期趋势、"星期几效应"、节假日效应、空气污染等因素的影响后,分析2009~2011年北京市平均气温、相对湿度及其交互作用对呼吸系统疾病急诊就诊人数影响的暴露反应关系.结果显示,平均气温与呼吸系统疾病急诊就诊人数呈现近似U型的非线性关系,其作用临界点为12℃,当平均气温低于12℃时,气温每升高1℃,呼吸系统疾病急诊就诊人数减少2.26%(95%CI-2.43,-2.09);当气温高于12℃时,气温每升高1℃,呼吸系统疾病急诊就诊人数增加0.92%(95%CI 0.72, 1.11).相对湿度与呼吸系统疾病的效应也呈现U型的分布特征,作用阈值为51%,当相对湿度≤51%时,相对湿度每增加10%,呼吸系统疾病急诊就诊人数减少3.43%(95%CI -3.47%,-3.38%);当相对湿度>51%时,其每增加10%呼吸系统疾病急诊就诊人数增加1.80%(95%CI 1.76%,1.85%).平均气温对呼吸系统疾病的影响受相对湿度水平的调节.在低温环境下,相对湿度越小,气温对呼吸系统疾病的影响越显著,气温每升高1℃,呼吸系统疾病急诊就诊人数减少2.71%(95%CI -2.88,-2.53);;而高温环境下,当相对湿度较大时气温健康效应较强,即气温每升高1℃,呼吸系统疾病急诊就诊人数增加1.37%(95%CI 1.13, 1.61).     

Heterogeneous uptake of NO2 on soils under variable temperature and relative humidity conditions

Heterogeneous reactions of nitrogen dioxide (NO₂) on soils collected from Dalian (S1) and Changsha (S2) were investigated over the relative humidity (RH) range of 5%-80% and temperature range of 278-328 K using a horizontal coated-wall flow tube. The initial uptake coefficients of NO₂ on S2 exhibited a decreasing trend from (10 ± 1.3) × 10^-8 to (3.1 ± 0.5) × 10^-8 with the relative humidity increasing from 5% to 80%. In the temperature effect studies, the initial uptake coefficients of S1 and S2 decreased from (10 ± 1.2) × 10^-8 to (3.8 ± 0.5) × 10^-8 and from (16 ± 2.2) × 10^-8 to (3.8 ± 0.4) × 10^-8 when temperature increased from 278 to 288 K for S1 and from 278 to 308 K for S2, respectively. As the temperature continued to increase, the initial uptake coefficients of S1 and S2 returned to (7.9 ± 1.1) × 10^-8 and (20 ± 3.1) × 10^-8 at 313 and 328 K, respectively. This study shows that relative humidity could influence the uptake kinetics of NO₂ on soil and temperature would impact the heterogeneous chemistry of NO₂.     

TiO2/Ti光电极电助光催化降解甲草胺的研究

采用阳极氧化法制备了TiO₂/Ti光电极,并通过电助光催化的方法研究了恒电流法和恒电压法对甲草胺的降解效率.实验证实了在光催化和电催化之间存在协同效应,反应溶液中加入Na₂SO₄电解质后,SO₄^2-可以被价带空穴氧化成强氧化性的S₂O₈^2-,继而可以氧化处理物质,提高甲草胺的降解效率.实验结果表明：甲草胺在羟基自由基的作用下通过羟基化作用和脱烷作用,发生断键、开环等一系列的氧化还原反应,最终生成CO₂和H₂O等无机小分子物质.     

氮掺杂二氧化钛复合催化膜降解甲苯气体研究

采用溶胶-凝胶法以聚丙烯(PP)中空纤维膜为载体制备了N-Ti O2/PP复合催化膜,并考察了其催化降解甲苯有机废气的性能.结果发现,紫外光催化的甲苯降解率可达84%,去除负荷为89.8 g·m-3·h~(-1),自然光催化的甲苯降解率可达63.9%,去除负荷为69.25 g·m-3·h~(-1).同时,采用紫外-可见光谱(UV-Vis)、X-射线光电子能谱(XPS)和傅里叶变换红外光谱(FT-IR)表征了N-Ti O2/PP复合催化膜,并采用GC-MS分析甲苯降解过程的中间产物并推测甲苯反应过程机理.采用GC-MS分析出口气样的研究结果表明,苯(C6H6)、苯甲醛(C7H6O)、苯乙酸(C8H8O2)、丙烯醛(C3H4O)、甲酸甲酯(C2H4O2)为甲苯光催化降解的中间产物.N-Ti O2/PP复合催化膜降解甲苯的机制为甲苯气体通过中空纤维膜传质到N-Ti O2/PP复合催化膜,光催化产生羟基自由基,甲苯气体被羟基自由基氧化成中间产物,并继续降解为最终产物二氧化碳和水.     

阴离子对As(Ⅲ)在砖红壤与TiO2混合体系中的光催化氧化/吸附的影响

以磷酸根和硫酸根为例,采用一次平衡法研究了无机阴离子对As(Ⅲ)在砖红壤中光催化氧化和吸附的影响.实验结果表明,磷酸根和硫酸根的加入均降低了As(Ⅲ)在土壤中的氧化和吸附,磷酸根的影响程度大于硫酸根,而且两者的影响机理不同.磷酸根主要通过表面吸附机制即强烈地吸附在催化剂表面导致催化剂活性降低,以及与氧化产物As(V)竞争土壤颗粒表面吸附位来影响反应活性;而硫酸根则是在光催化氧化过程中通过捕获光生空穴(h+)和羟基自由基(OH.)生成光催化效率较低的SO4-.,从而影响As(Ⅲ)的光催化氧化效率.     

基于ZrO2/TiO2催化H2O2氧化低温脱硝的实验研究

以纳米TiO_2为载体,采用等体积浸渍法掺杂过渡金属氧化物ZrO_2进行改性,制备了一系列ZrO_2/TiO_2催化剂,以催化H_2O_2低温氧化NO脱硝,并采用X射线衍射(XRD)、H_2程序升温还原(H_2-TPR)、O_2程序升温氧化(O_2-TPO)、X射线光电子能谱(XPS)及电子顺磁共振(EPR)等表征分析探究了影响H_2O_2脱硝活性的因素.表征结果表明ZrO_2的负载量会影响催化剂中晶格氧的含量,晶格氧相对含量的增加有利于氧化还原反应中的电子传递,这是促进H_2O_2活化分解的关键.在微观表征的基础上,通过实验研究筛选获得了催化剂的最佳ZrO_2负载量,同时对比考察了非催化和纳米TiO_2催化作用下的H_2O_2氧化低温脱硝性能;针对获取的最优催化剂,进一步考察了不同烟气工况对催化剂活性的影响.实验结果表明,ZrO_2/TiO_2催化剂能有效促进H_2O_2的活化分解实现低温脱硝,且ZrO_2负载量为4%(质量分数)时,催化活性最高;在烟温为160℃、[H_2O_2]/[NO]物质的量比为2及空速为30000 h~(-1)时,NO转化率最高可达81%.     

甲基橙溶液多相光催化降解研究

利用中压汞灯作为光源,在ＴｉＯ２粉末悬浆体系内,以甲基橙溶液光降解脱色速率为例,探讨间歇式电光源圆柱形光化学反应器的运行情况及影响因素．分别考察了使用３００Ｗ和５００Ｗ中压汞灯、石英和玻璃冷阱、甲基橙溶液温度在２０℃或５０℃、不同ＴｉＯ２催化剂以及不同催化剂投加量对甲基橙溶液脱色速率的影响．从而得出在现有电光源圆柱形反应器的最佳运行条件下,２０ｍｇ／Ｌ的甲基橙溶液光照１０ｍｉｎ,脱色率达９７．４％．     

Microwave photocatalytic degradation of Rhodamine B using TiO2 supported on activated carbon： Mechanism implication

The photocatalytic degradation of Rhodamine B (RhB) was carried out using TiO2 supported on activated carbon (TiO2-AC) under microwave irradiation. Composite catalyst TiO2-AC was prepared and characterized using X-ray di raction (XRD), transmission electron microscopy (TEM) and Brunauer-Emmett-Teller (BET). In the process of microwave-enhanced photocatalysis (MPC), RhB (30 mg/L) was almost completely decoloured in 10 min, and the mineralization e ciency was 96.0% in 20 min. The reaction rate constant of RhB in MPC using TiO2-AC by pseudo first-order reaction kinetics was 4.16 times of that using Degussa P25. Additionally, according to gas chromatography/mass spectrometry (GC/MS) and liquid chromatography/mass spectrometry (LC/MS) identification, the major intermediates of RhB in MPC included two kinds of N-de-ethylation intermediates (N,N-diethyl-N’-ethyl-rhodamine (DER)), oxalic acid, malonic acid, succinic acid, and phthalic acid, maleic acid, 3-nitrobenzoic acid, and so on. The degradation of RhB in MPC was mainly attributed to the destruction of the conjugated structure, and then the intermediates transformed to acid molecules which were mineralized to water and carbon dioxide.