凹凸棒黏土对燃煤PM2.5排放及团聚捕集特性影响

在固定床反应系统上考察凹凸棒黏土对燃煤可吸入颗粒物PM_2.5的排放及团聚捕集特性影响,分析凹凸棒黏土添加量以及添加凹凸棒黏土情况下燃烧气氛、燃烧温度和钙硫物质的量比等参数对燃煤PM_2.5的数量浓度、质量浓度以及团聚捕集率的影响规律。结果表明,煤燃烧过程中添加凹凸棒黏土可以显著降低PM_2.5排放浓度,凹凸棒黏土的添加量不宜超过3%(质量分数);空气气氛下燃烧产生的PM_2.5多于O₂/CO₂气氛;随着钙硫物质的量比的增大,PM₁的质量浓度减小,但PM_1~2.5的质量浓度增大,颗粒物的粒径有向更大粒径转移的趋势;燃烧温度的升高会促进PM_2.5各粒径范围颗粒物的生成,降低了凹凸棒黏土对PM_2.5团聚捕集率。     

流化床O2/CO2气氛下添加石灰石对燃煤PM2.5的控制

采用小型流化床研究了在O₂/CO₂气氛下添加石灰石对PM_2.5(空气动力学直径小于2.5 μm的颗粒物)的控制.实验采用荷电低压撞击器(ELPI)采集和分析燃烧后的PM_2.5.结果表明,添加石灰石是燃烧过程中影响PM_2.5生成的重要因素.添加石灰石后,生成PM_1.0的数量浓度均降低,而PM_1.0~2.5的数量浓度均略有增加;PM_2.5质量粒径分布均呈双峰分布,峰值分别出现在0.2和2.0 μm左右.随着Ca/S物质的量比的增加,PM_2.5中Si、Na、K、S和Cu的含量呈减少的趋势;随着颗粒粒径的减小,S、Cu、K和Na的含量有增大的趋势,而Si的含量有减少的趋势.     

杭州市冬季大气气溶胶PM2.5中二恶英和多氯联苯的污染特征

2014年1月在杭州市选择5个点位采集大气颗粒物PM_2.5样品,采用同位素稀释高分辨气相色谱/高分辨质谱测定PM_2.5中的二恶英（PCDD/Fs）和多氯联苯（PCBs）,对PM_2.5的污染状况以及PM_2.5中PCDD/Fs和PCBs的污染水平及分布特征进行了研究。PM_2.5的质量浓度范围为85~168 μg/m³,PM_2.5污染较重,但与2004年同期相比明显降低。PM_2.5中PCDD/Fs的毒性当量（TEQ）为0.277~0.488 pg I-TEQ/m³,明显高于2004年同期采集样品。颗粒物中PCDD/Fs以八氯代二苯并-对-二恶英（OCDD）为主,毒性当量主要贡献者为2,3,4,7,8-五氯代二苯并呋喃（2,3,4,7,8-PeCDF）。PM_2.5中PCBs的质量浓度范围为2.9~8.1 pg/m³,二恶英类多氯联苯（DL-PCBs）的毒性当量范围为2.6~6.1 fg WHO-TEQ/m³,污染较低。PCBs在颗粒物中分布以PCB-28为主,但对毒性当量贡献最大的为PCB-126。PCDD/Fs和PCBs的气-固分配特征表现为PCDD/Fs主要分布于颗粒物中,而PCBs主要分布于气相中。     

电解质水溶液结构研究进展及前景*

叙述盐湖中主要离子Li⁺ 、Na⁺ 、K⁺ 、Mg²⁺ 、Ca²⁺ 、Cl^- 、SO^2-₄ 、NO^-₃ 的水溶液和纯水的结构, 简单介绍了主要的研究方法, 分析讨论了溶液结构研究的现状和发展前景。     

O2/CO2气氛下O2浓度对燃煤PM2.5形成的影响

采用管式炉和荷电低压撞击器(electrical low pressure-impactor,ELPI)研究了徐州烟煤在O₂/CO₂条件下燃烧后生成的PM_2.5排放特性。结果表明,在O₂/CO₂气氛下,煤粉在不同O₂浓度燃烧所产生的PM_2.5质量浓度均呈双峰分布,峰值分别在0.1和2.0 mm左右;随着氧含量的增加,PM_2.5的质量浓度增加;S、K和Na在亚微米颗粒上明显富集,而Si和Ca未在亚微米颗粒上富集;通过对颗粒物的粒径分布、元素分析和形貌观察,认为亚微米颗粒主要是矿物质蒸发鄄凝结机制形成的,而超微米颗粒主要是煤焦与外部矿物质的破碎以及内在矿物质聚合形成的。     

NH3与Cl2在y-Al2O3颗粒物表面的非均相反应

使用离子色谱分析了常温、常压、湿润和氧气存在条件下,NH₃和Cl₂在γ-Al₂O₃颗粒物表面非均相反应的产物及其受NH₃浓度、反应时间等的影响;并定量分析了NH₃、Cl₂、SO₂和NO₂单独及共存条件下,γ-Al₂O₃表面Cl^-、NO₃^-和SO₄^2-等二次无机颗粒物的生成总量.结果表明：NH₃和Cl₂在γ-Al₂O₃表面具有协同作用,2 h后Cl^-的生成总量可达589.65 μg,其生成量随时间延长而不断增加.表面氯化物的生成量在NH₃浓度为400 ppm时达到峰值,且随NH₃浓度的增加呈先增加而后减少的趋势.活性氯存在下,NH₃对颗粒物表面Cl^-、NO₃^-和SO₄^2-的生成有促进作用,且四种气体共存时复合正反馈效应最明显.同时,本研究对NH₃和Cl₂在颗粒物表面的非均相反应机理及活性氯和氨的排放对大气中二次无机颗粒物的贡献进行了探讨.     

二次有机气溶胶估算方法比较研究

为研究北京夏季二次有机气溶胶（SOA）浓度,比较多种SOA估算方法的不确定性和在我国的适用性,在CAREBEIJING 2008大型观测期间在城市点北大点和郊区点榆垡点采集大气颗粒物PM_2.5样品,利用多种方法对二次有机碳（SOC）的浓度进行了估算,估算方法包括二次有机示踪物产率法、非一次源OC法、非生物质燃烧水溶性有机碳法（WSOC）和元素碳示踪有机碳/元素碳比值法.估算结果表明,二次有机气溶胶已经成为北京颗粒有机物的重要组成部分,夏季SOC可以占总有机碳（OC）的50%甚至更高。通过模拟我国典型的生物质燃烧,实测建立适合我国的获得了非生物质燃烧WSOC方法中的重要参数,即获得方法中重要参数生物质燃烧排放颗粒物中WSOC/OC的比值,我国生物质燃烧颗粒物中该比值平均为0.48±0.04.多种方法结果均表明,SOA已经成为北京颗粒有机物的重要组成部分,所占比例可以达到50%甚至更高.利用化学质量守恒模型（CMB）和示踪物产率法对颗粒有机物来源进行闭合发现,依靠目前的示踪物技术北京大气颗粒有机物中仍然有20%～27%的来源不清楚.通过综合比较了多种SOC估算方法,确定了各方法在我国的适用性： 示踪物产率法、非一次源OC法和EC示踪OC/EC比值法可适用于我国大气中SOC的估算,但是非生物质燃烧WSOC方法仅适用于我国大气中水溶性SOC的估算,但是不同方法之间存在的系统误差.本研究还对这几种方法的不确定性做了初步的分析,为其他研究者选择估算方法提供参考和依据.示踪物产率法仅估算了几种特定VOCs前体物对SOC贡献,因此低估了总的SOC,但是这种方法是目前唯一一种可以估算特定VOCs前体物对SOC贡献的方法;同样地,非生物质燃烧WSOC法仅估算了水溶性的SOC,因此也低估了总的SOC;非一次源OC法高估了SOC,这主要是由于未能解析出的一次源OC造成的.而且这种高估在城市地区更为显著,主要是因为城市地区一次源相对比较复杂造成的;非生物质燃烧WSOC法低估了总的SOC,而且这种方法仅适用于我国水溶性SOC的估算;EC示踪OC/EC比值法的主要不确定性来自于一次源OC/EC比值的确定,由于这个比值造成的单点误差最高可高估54%或低估64%.     

离子色谱-电感耦合等离子体质谱联用测定大气颗粒物PM2.5和PM10中的六价铬

建立了大气颗粒物PM_2.5、PM₁₀中六价铬（Cr（Ⅵ））的离子色谱-电感耦合等离子体质谱（IC-ICP-MS）检测方法。采用碳酸氢钠（NaHCO₃）溶液超声提取大气颗粒物样品中的Cr（Ⅵ）,并使用含有0.22 g/L 乙二胺四乙酸二钠盐（Na₂EDTA）的75 mmol/L硝酸铵溶液（pH 7.0）淋洗液通过离子色谱柱（AG7,50 mm×4 mm）分离出样品中的Cr（Ⅵ）,电感耦合等离子体质谱测定。标准溶液中Cr（Ⅵ）的质量浓度在0.05~5 μg/L范围内呈良好的线性关系,相关系数达0.9999,标准溶液测定的精密度为1.0%~4.0%,标准样品测定的相对误差为3.3%;纤维素滤膜适用于Cr（Ⅵ）的采样,将纤维素滤膜碱化后,Cr（Ⅵ）的回收率从75%增加到102%;样品在20 mmol/L碳酸氢钠溶液中超声30 min后上机测试,提取完全且回收率稳定;当采样体积为20 m³,方法的检出限为0.0004 ng/m³;采集并测定了PM_2.5及PM₁₀实际样品,样品的加标回收率为91.6%~102%,精密度为1.7%~7.6%。该方法高效、稳定、灵敏,适用于大气颗粒物中六价铬的测定。     

超临界二氧化碳偶合超声预处理强化玉米秸秆酶水解(英)

提出了一个木质纤维素生物质预处理的全绿色加工过程.以玉米秸秆和玉米芯为原料,以超临界CO₂和超声偶合法对木质纤维素进行预处理.超临界CO₂预处理条件为:压力15-25 MPa,温度120₁70℃,含水量50%,反应时间0.5₄ h.超声场功率600W,温度80℃,作用时间2-8 h.用纤维素酶水解反应获得的还原糖总量来评价预处理效果.结果表明,单纯超临界CO₂和超临界CO₂偶合超声预处理都能够提高生物质水解反应还原糖产量.对于玉米芯,超临界CO₂预处理（170℃,20 MPa,3 0min）后,还原糖产率为62%（未预处理的为12%）.对于玉米秸秆（170℃,20 MPa,2.5 h）,还原糖产率为46.4%.对于玉米芯,超临界CO₂偶合超声预处理（600 W,80℃下超声处理6 h,然后用170℃,20 MPa超临界CO₂预处理30 min）后,还原糖产率为87%.对于玉米秸秆,超临界CO₂偶合超声预处理（600 W,80℃下超声处理8 h,然后用170℃,20 MPa超临界CO₂预处理1 h）后,还原糖产率为25.5%.与未处理生物质相比,X射线衍射结果表明玉米秸秆和玉米芯在超临界CO₂和超声预处理后其结晶度没有明显变化.扫描电镜分析则发现木质纤维素的表面积显著增加.     

冠醚对生物化学影响的研究(Ⅲ)——五种冠醚化合物对小麦幼苗根系吸收与运转42K、24Na、45Ca离子的影响

本文用放射性同位素⁴²K、²⁴Na、⁴⁵Ca作示踪,配以P^K、P^Na离子选择电极测量溶液的电导率和电位变化。研究五种冠醚化合物对南大八号小麦幼苗根系吸收与运转无机离子(K⁺、Na⁺、Ca^艹)的作用。实验结果表明,五种冠醚化合物对小麦幼苗根系具有不同程度的促进吸收和加速运转K⁺、Na⁺、Ca^艹的作用,其中以1号冠醚化合物作用最为明显,在K⁺、Na⁺、Ca⁺艹>中对K⁺的作用最为突出。     

结构因子的析因子形成

在X射线结晶学中,结构因子表示为 F_(hkl)=Σ j f_jexp[2πi(hx_j+ky_i+lz_j)] (1)式中h、k、l表示衍射指标,f_j表示晶胞中第j个原子的散射因子;(x_j,y_j,z_j)表示第j个原子的坐标,求和遍及晶胞中的所有原子。因为衍射线的强度I_(hkl)正比于结构因子绝对值的平方,即I_(hkl)∝|F_(hkl)|~2所以在晶体结构测定中式(1)用于衍射强度的计算。但是,由于式(1)中     

Heavy metal accumulation by selected plant species along the national highway: a case study of Udaipur,Rajasthan, India

ABSTRACT

A detailed research was conducted to find out the heavy metal accumulation by plant species at the roadside. Bioconcentration, bioaccumulation and translocation factors were estimated in 10 individuals of each investigating plant species. The plant and soil samples used in the research were collected along the National Highway-76 from Chittorgarh to Udaipur, Rajasthan, India. The concentration of cadmium and lead in roadside soil, plant roots, stems and leaves shows a correlation. The highest bioconcentration factor of Cd and Pb was 0.22 ± 0.04 and 0.13 ± 0.02 estimated in Bougainvillea spectabilis Willd. The highest translocation factor of Cd was 1.30 ± 0.50 in Pongamia pinnata L., and the highest translocation factor of Pb was 1.63 ± 0.45 estimated for Nerium oleander L. The average concentrations of Cd and Pb were 11.35 ± 1.60 and 223.70 ± 68 mg kg^?1 in investigated roadside soil. The average concentrations of accumulated Cd and Pb in B. spectabilisWilld. were 2.38 ± 0.49, 1.97 ± 0.51, 3.07 ± 0.78 and 29.34 ± 7.82,18.96 ± 5.62, 37.75 ± 12.93 mg kg^?1 in roots, stems and leaves, respectively. The decreasing order of bioaccumulation factor of cadmium in plants was B. spectabilis Willd.>Butea monosperma (Lam.) Taub>Calotropis procera (Ailton) Dryand>N. oleander L.>P. pinnata L. The decreasing order of bioaccumulation factor of lead in plants was B. spectabilis Willd.>P. pinnataL.>B. monosperma (Lam.) Taub>C. procera (Ailton) Dryand>N. oleander L. The B. spectabilis Willd. was identified as a rhizofiltration tool of heavy metals such as Cd and Pb with higher bioconcentration factor. P. pinnata L. for Cd and N. oleander L. for Pb were revealed for phytoextraction technology with high translocator factor to accumulate and eliminate these toxic elements from soil.     

Automatic window factor analysis—A more efficient method for determining concentration profiles from evolutionary spectra

An algorithm called automatic window factor analysis (AUTOWFA) is developed for the purpose of determining, efficiently and automatically, the concentration profiles of the spectroscopically active components present in evolutionary processes, such as chemical titration, chromatography and kinetics. The method not only yields windows and profiles in agreement with those reported in the literature, but also reveals components not detected by precursor techniques. The method, however, has not been optimized and may require user interaction to fine-tune the windows.     

A new approach to predict the formation of 3D hybrid organic-inorganic perovskites

Recently, hybrid organic-inorganic perovskite (HOIPs) materials are used to enhance the power conversion efficiency of the solar cells. The tolerance factor (TF) and octahedral factor (μ) are widely used to predict the formation of three-dimensional (3D) HOIPs structures. However, in some of the cases (e.g. CH₃NH₃GeI₃ (MAGeI₃) [TF = 1.06, μ = 0.33] NH₂CHNH₂GeI₃ (FAGeI₃) [TF = 1.14, μ = 0.33] and CH₃C(NH₂)₂GeI₃ (ACGeI₃) [TF = 1.17, μ = 0.33]), these factors could not predict the formation of HOIPs structures. Thus, we have introduced a new factor based on the HOMO-LUMO energy gap of the organic cations, metal cations, anions, and volume of the organic cations. We have tested and utilized the HOMO-LUMO energy gap factor (β) on 403 ABX₃ combinations. The factor β successfully predicts and differentiate the perovskite and non-perovskite materials. Further, we also observed that for the formation of HOIPs structure, volume of the organic cation should also be in the range of 20 to 46 cm³/mol. Based on the newly reported factor, we have also designed some new organic cations which may form a 3D HOIPs structure.     

Integral of the boltzmann factor

A new approximation is proposed to the integral of the Boltzmann factor:

影响离子导电高分子材料性能的内因与外因

材料分子设计离不开结构与性能的关系。分析内因与外因两方面影响因素对材料功能特性的影响有助于优化功能材料的结构。本文以离子型导电功能高分子材料为例,详细分析了各种因素对材料电导率的影响,为离子型导电功能高分子材料的结构设计提供依据。     

Proteomic characterization of plasma‐derived clotting factor VIII–von Willebrand factor concentrates

Proteomic methods were used to identify the levels of impurities in three commercial plasma‐derived clotting factor VIII‐von Willebrand factor (FVIII/VWF) concentrates. In all three concentrates, significant amounts of other plasma proteins were found. In Octanate and Haemoctin, two concentrates developed in the 1990s, the major impurities identified were inter‐α inhibitor proteins, fibrinogen and fibronectin. These two concentrates were also found to contain additional components such as clotting factor II (prothrombin) that are known activators of FVIII. In Wilate, a recently developed FVIII/VWF concentrate, the amount of these impurities was significantly reduced. Batch‐to‐batch variations and differences between three investigated products were detected using iTRAQ, an isotope labeling technique for comparative MS, demonstrating the potential value of this technique for quality control analysis. The importance of thorough proteomic investigations of therapeutic FVIII/VWF preparations from human plasma is also discussed.     

时域反射光谱法研究酰胺-醇混合物的介电驰豫

Using time domain reflectometry (TDR),dielectric relaxation studies were carried out on binary mixtures of amides (N-methylformamide (NMF) and N,N-dimethylformamide (DMF)) with alcohols (1-butanol,1-pentanol,1-hexanol,1-heptanol,1-octanol,and 1-decanol) for various concentrations over the frequency range from 10 MHz to 10 GHz at 303 K. The Kirkwood correlation factor and excess dielectric constant properties were determined and discussed to yield information on the molecular interactions of the systems. The relaxation time varied with the chain length of alcohols and substituted amides were noticed. The Bruggeman plot shows a deviation from linearity. This deviation was attributed to some sort of molecular interaction which may take place between the alcohols and substituted amides. The excess static permittivity and excess inverse relaxation time values varied from negative to positive for all the systems indicating that the solute-solvent interaction existed between alcohols and substituted amides for all the dynamics of the mixture.