Spectroscopic study on variations in illite surface properties after acid-base titration

FT IR, Raman microscopy, XRD, 29 Si and 27 Al MAS NMR, were used to investigate changes in surface properties of a natural illite sample after acid base potentiometric titration. The characteristic XRD lines indicated the presence of surface Al Si complexes, preferable to Al(OH) 3 precipitates. In the microscopic Raman spectra, the vibration peaks of Si O and Al O bonds diminished as a result of treatment with acid, then increased after hydroxide back titration. The varied ratio of signal intensity between IV Al and VI Al species in 27 Al MAS NMR spectra, together with the stable BET surface area after acidimetric titration, suggested that edge faces and basal planes in the layer structure of illite participated in dissolution of structural components. The combined spectroscopic evidence demonstrated that the reactions between illite surfaces and acid leaching silicic acid and aluminum ions should be considered in the model description of surface acid base properties of the aqueous illite.

Surface Characterization of Glass Fiber by Inverse Gas Chromatography

The surface properties of glass fiber were quantificationally analyzed by inverse gas chromatography （IGC）. Five n-alkanes （C6, C7, C8, C9, and C10） were chosen as apolar probes to characterize the dispersive component of surface free energy. Trichloromethane （CHCl3）, acetone, and tetrahydrofuran （THF） were chosen as polar probes to detect the Lewis acid-base parameters. It is found that the dispersive components of free energy are 32.3, 30.5, 27.5, and 26.9 mJ/m^2 at 70, 80, 90, and 100 ℃. respectively. The Lewis acidic number Ka of the glass fiber is 0.512 4, and the basic number Kb is 2.862. The results mean the glass fiber is a Lewis basic material.

Surface Acidity of Amorphous Aluminum Hydroxide

The surface acidity of synthetic amorphous AI hydroxide was determined by acid/base titration with several complementary methods including solution analyses of the reacted solutions and XRD characterization of the reacted solids. The synthetic specimen was characterized to be the amorphous material showing four broad peaks in XRD pattern. XRD analyses of reacted solids after the titration experiments showed that amorphous AI hydroxide rapidly transformed to crystalline bayerite at the alkaline condition （pH〉10）. The solution analyses after and during the titration Ksp=^aAl^3＋/aH^＋^3 ,was 10^10.3. The amount of consumption of added acid or base during the titration experiment was attributed to both the protonation/deprotonation of dissolved AI species and surface hydroxyl group. The surface acidity constants, surface hydroxyl density and specific surface area were estimated by FITEQL 4.0.

Sorption of a triazol derivative by soils: importance of surface acidity

The sorption of a triazol derivative, 1-(4-chlorophenyl)- 4,4-dimethyl-2-(1H-1,2,4-triazol-1-yl)penten-3-ol with a common name of S3307D, on fifteen soils and three H_2O_2-treated soils was investigated. The sorption isotherm for each untreated and treated soil was non-linear, and was best fitted to Freundlich sorption equation. Soils containing high amount of clay content or organic matter or both sorbed much higher amounts of the chemical than soils that had low contents of these soil constituents. H_2O_2-treated soils showed considerable sorptive affinity for S3307D. It was concluded that both organic matter and mineral fraction in natural soils contributed to the sorption of the basic compound. Sorption by the H_2O_2 treated soils increased as suspension pH decreased, but all suspension pHs exceeded the pKa of the compound by more than two units. This implies that organic base protonation can occur on surfaces of soil components, and surface acidity (exchangeable acidity ) is important in sorption process of the organic base rather than suspension pH.

贵州泥质灰岩中性自然与耕作黄壤镉的表面络合模型

贵州省黄壤Cd污染形势严峻,而地域性及母质分异会引起土壤表面酸碱性质及其对重金属Cd吸附行为的差异.本研究以贵州省黔西林泉镇泥质灰岩发育的不同深度4层中性自然黄壤和耕作黄壤为研究对象,基于土壤理化性质、连续电位滴定实验、不同pH下两土壤对Cd的吸附实验,利用1-site/2-pKa表面络合模型(SCM)探究两土壤表面酸碱性质,模拟两土壤对Cd的吸附行为及其形态分布,同时探究耕作对土壤表面酸碱性质及其对Cd吸附行为的影响,并通过相关性分析解析两土壤组成与表面酸碱性质的关系.结果表明,基于电位滴定实验和SCM计算所得的两土壤表面位点浓度(Hs)和表面位点密度(D_(s))随土层深度基本呈下降趋势,自然黄壤Hs大于耕作黄壤,D_(s)反之.电荷零点的模型计算值(pHpzc,SCM)与实验值(pHpzc,M)十分接近且变化趋势一致,表明该模型对于泥质灰岩中性黄壤的表面酸碱性质具有较好的适用性.结合不同pH下两土壤对Cd的吸附实验,利用SCM拟合获得的吸附态、溶解态曲线与实验数据吻合好(r≥0.98),模型拟合≡SOH_(2)^(+)、≡SOH、≡SO−的3种表面位点的形态分布揭示Cd在不同pH下的吸附特征,说明1-site/2-pKa SCM可预测不同酸碱条件下Cd的存在形态及其在泥质灰岩中性土壤上的吸附行为.通过土壤酸碱性质参数和组分的相关性分析表明两土壤的表面酸碱活性位点主要受有机质影响,而土壤pHpzc基本由铁铝氧化铁决定.因耕作施肥造成自然黄壤与耕作黄壤之间有机质含量的差异,使耕作黄壤表现出较弱的缓冲能力和较大的缓冲范围;两土壤pHpzc较为接近,导致Cd的吸附行为无明显差异.研究显示,1-site/2-pKa SCM可用于准确描述泥质灰岩中性黄壤表面酸碱性质及Cd的吸附特征.

镁改性增强小麦秸秆生物炭对镉的吸附能力:表面络合模型研究

近年来研究改性生物炭有效去除水中重金属成为热门,但使用表面络合模型从微观探讨生物炭对镉的吸附机理鲜见报道。通过MgCl2与小麦秸秆生物炭(WB)共热解制备镁改性生物炭(MgWB)。SEM-EDS、FTIR和BET等表征显示镁成功接枝到生物炭,Mg的质量分数增加了3.97%,生物炭表面新增Mg-O峰且-OH、-C-O峰增强,镁改性未改变小麦秸秆的条状管道主体结构但比表面积降低9.94%。293-313 K的等温吸附曲线表明改性前后生物炭的吸附行为均符合Langmuir模型,MgWB在313 K时最大饱和吸附密度(3.50μmol·m-2)是WB的3.7倍。Boehm滴定实验显示改性使总酸性官能团增加13.4%,其中代表高、中、低亲和型官能团的羟基、内酯基、羧基浓度分别增加4.28%、8.92%和0.178%。电位滴定曲线显示镁改性导致生物炭的pHpzc从9.2降为5.3,不同pH条件下Cd2+的吸附边实验中WB和MgWB吸附率达90%所需pH分别为9和6,结果表明吸附平衡所需pH值与pHpzc有关,且pHpzc的改变会导致生物炭表面位点类型在不同pH条件下的镉吸附差异。利用非静电表面络合模型NEM、以广义复合法进行拟合,最佳参数计算的位点分布曲线显示WB和MgWB的吸附贡献主要为高亲和型位点,该位点与Cd^(2+)的吸附态浓度达到最高值所对应的pH分别为10和7;模型拟合参数pKa和pK≡SOCd+表明镁改性导致生物炭表面官能团的质子化能力降低,与Cd^(2+)的络合能力增强。镁改性可以丰富生物炭表面官能团,通过增加表面位点浓度和降低pHpzc有效改善生物炭对重金属的吸附。本研究在使用非静电表面络合模型拟合中将表面位点类型的吸附贡献与pHpzc结合讨论微观吸附机理,为生物炭-重金属的相互作用提供了一种新的量化手段。

钻井液用新型可酸溶加重剂的制备与应用

以羟基磷灰石为原料,六偏磷酸钠为改性剂,制备了一种可酸溶加重剂。采用FTIR对其化学结构进行表征,对改性后加重剂的酸溶性、Zeta电位以及润湿性进行了评价,并对其配制的钻井液的流变性、滤失性以及储层保护效果进行了评价。实验结果表明,10%盐酸作用下改性加重剂的溶解率可达88.27%;采用该改性加重剂的钻井液具有良好的流变性和降滤失性;采用该改性加重剂的钻井液污染的岩心经10%盐酸浸泡2h后,渗透率恢复值>90%,表明改性加重剂参与形成的泥饼可被酸性工作液有效溶解和清除,从而保护储层。

响应面法优化复合益生菌固态发酵玉米-豆粕型日粮工艺

研究旨在对复合益生菌发酵玉米-豆粕型日粮产生酸溶蛋白的工艺进行优化,为复合益生菌发酵饲料的应用提供参考。在单因素试验的基础上以酸溶蛋白含量为响应值,以接种量、料水比、发酵时间、发酵温度为自变量,通过Box-Behnken设计试验,优化复合益生菌发酵玉米-豆粕型日粮的发酵工艺。结果表明:乳酸杆菌RSG-1∶枯草芽孢杆菌B-1∶地衣芽孢杆菌Y5-39为1∶1∶4时,酸溶蛋白含量最高为5.30%;响应面优化后复合益生菌最佳发酵工艺为:含水量48%,接种量10%,发酵温度48℃,发酵时间10 d,酸溶蛋白含量为13.31%,在考虑生产实际的情况下,将发酵温度调整为37℃。综上,研究确定了多菌种组合固态发酵玉米-豆粕型日粮的最佳工艺条件:含水量为48%、接种量(乳酸杆菌∶枯草芽孢杆菌∶地衣芽孢杆菌=1∶1∶4)10%、发酵温度37℃、发酵时间10 d,酸溶蛋白含量达到13.06%。

钢铁企业除尘用涤纶滤料在复杂烟气环境下的老化行为分析

为研究高温烟气中酸碱耦合作用对滤料性能的影响,在3种不同温度(45,75和130℃)下对涤纶滤料进行酸碱交互老化试验.发现涤纶滤料在高温酸碱耦合环境下的耐水解性能较差,且先受到碱再受到酸腐蚀对滤料产生巨大影响.在130℃下,经碱性环境和酸性环境的交互老化后,滤料的拉伸断裂强力和面层剥离强力分别为由1638.8,143.1 N下降到1100.8,19.1 N,FT-IR(Fourier transform infrared spectroscopy)显示,C-O吸收峰减弱,表明水解过程中的聚对苯二甲酸乙二醇大分子链断裂,这也是发生水解和性能下降的主要原因.

双层SiO_(2)宽谱带减反射涂层的制备及性能表征

采用无模板溶胶-凝胶法,成功制备在可见光范围内具有高透射率和良好疏水性的宽谱带减反射双层SiO_(2)涂层。采用提拉法在石英基底上沉积SiO_(2)双层涂层,底层和顶层的折射率分别为1.34和1.15。其中,底层由酸催化和碱催化混合SiO_(2)溶胶制备得到,顶层薄膜的溶胶是使用六甲基二硅氮烷(HMDS)作为改性剂,制备得到三甲基硅烷化的SiO_(2)纳米粒子体系。根据优化膜系设计要求,选择合适工艺参数镀制双层涂层,测试结果显示,SiO_(2)双层涂层在可见光区的平均透射率为98.64%,静态水接触角可达134°。

响应面法优化凝固型红小扁豆酸奶发酵工艺

该试验以红小扁豆为原料制作凝固型红小扁豆酸奶,以感官评分和酸度作为评价指标,通过单因素和响应面试验对凝固型红小扁豆酸奶的发酵工艺进行优化。结果表明,凝固型红小扁豆酸奶的最佳发酵工艺为低聚果糖添加量13%、发酵剂添加量0.3%、发酵温度38℃、发酵时间8 h。在此优化条件下,凝固型红小扁豆酸奶的感官评分为84.5分,蛋白质含量为7.16 g/100 g,脂肪含量为3.09 g/100 g,酸度为54°T,黏度为4695.7 mPa·s,酵母菌和霉菌活菌数为12 CFU/g,口感和风味均能满足大众要求。

Support effect of the supported ceria-based catalysts during NH_3-SCR reaction

To investigate how the physicochemical properties and NH3‐selective catalytic reduction(NH3‐SCR)performance of supported ceria‐based catalysts are influenced as a function of support type,a series of CeO2/SiO2,CeO2/γ‐Al2O3,CeO2/ZrO2,and CeO2/TiO2catalysts were prepared.The physicochemical properties were probed by means of X‐ray diffraction,Raman spectroscopy,Brunauer‐Emmett‐Teller surface area measurements,X‐ray photoelectron spectroscopy,H2‐temperature programmed reduction,and NH3‐temperature programmed desorption.Furthermore,the supported ceria‐based catalysts'catalytic performance and H2O+SO2tolerance were evaluated by the NH3‐SCR model reaction.The results indicate that out of the supported ceria‐based catalysts studied,the CeO2/γ‐Al2O3catalyst exhibits the highest catalytic activity as a result of having a high relative Ce3+/Ce4+ratio,optimum reduction behavior,and the largest total acid site concentration.Finally,the CeO2/γ‐Al2O3catalyst also presents excellent H2O+SO2tolerance during the NH3‐SCR process.

Surface characterization of ashtree wood meal by inverse gas chromatography

Inverse gas chromatography(IGC) is a sensitive and convenient method to characterize surface prop-erties and thermodynamic parameters of solid materials. Surface properties of ashtree wood meal were determined by inverse gas chromatography in this work. The dispersive component of the surface free energy and acid-base parameters of the ashtree wood meal were characterized. The dispersive com-ponent of surface free energy was within 36―39 mJ/m2,the Lewis acidic number Ka was 0.53,and the basic number Kb was 0.21,respectively. The results show that ashtree is amphoteric and predominantly acidic wood.

基于泡腾辅助脂肪酸形态转化的悬浮固化-分散液液微萃取测定水样中环境雌激素

本研究建立脂肪酸形态转化液液微萃取技术并结合高效液相色谱对湖水和河水中雌酮、己烯雌酚和己烷雌酚这3种环境雌激素(EEs)进行了测定.利用脂肪酸可在亲水-疏水形态间转换的特点,对5种中链脂肪酸筛选得到辛酸作为萃取剂,同时根据其低温固化的特点,利用漂浮液滴固化微萃取技术进行测定.通过实验设计优化最优萃取条件为:H_(2)SO_(4)(98%)体积238μL、Na_(2)CO_(3)(2 mol·L^(-1))体积413μL、脂肪酸体积144μL和涡旋时间3.3 min.最优萃取条件下检测,定量限范围0.110-0.201μg·L^(-1),回收率范围89.0%—101.5%.本方法具有简便快捷,检测限低,回收率高,绿色环保等优点,适用于多种环境水体中EEs的快速定性及定量分析.

英红九号茶蛋白ACE抑制肽的制备、氨基酸组成及不同超滤组分的活性评价

以英红九号红茶渣经碱溶酸沉提取的茶蛋白为研究对象,血管紧张素转化酶(ACE)抑制率为评价指标,通过单因素试验和响应面优化得到茶蛋白ACE抑制肽的最佳制备工艺,并对酶解物进行氨基酸组成分析、超滤膜分离和不同分子量组分的ACE抑制活性分析。结果表明,英红九号茶蛋白ACE抑制肽的最优酶解工艺为酶解温度37℃、3.20 h、pH值7.20、底物质量分数3%、酶底质量比0.40%,在此条件下进行的验证试验ACE抑制率为83.38%,与理论值84.48%较相符。英红九号茶蛋白ACE抑制肽酶解物富含必需氨基酸(33.03%)和对ACE抑制活性有重要意义的疏水性氨基酸(47.20%),且经超滤膜分离所得<3 ku组分的ACE抑制活性(IC_(50)=0.85 mg/mL)要显著强于酶解物(IC_(50)=1.37 mg/mL)和>3 ku组分(IC_(50)=2.81 mg/mL)。该研究为食源性ACE抑制肽的研究开发和英红九号茶蛋白的高值化利用提供了理论依据。

MgO修饰的HZSM-5分子筛对甲苯甲醇烷基化反应性能的影响

采用浸渍法制备了系列MgO修饰的HZSM-5分子筛催化剂,通过X射线衍射(XRD)、扫描电子显微镜(SEM)、NH_(3)程序升温脱附(NH_(3)-TPD)、吡啶红外(Py-IR)等方法对修饰前后的HZSM-5分子筛催化剂进行表征,并在固定床反应器上对催化剂的性能进行评价.结果表明:MgO的修饰并未对HZSM-5分子筛的晶体结构有明显影响,但是部分MgO优先覆盖了分子筛表面的强酸位,从而降低了分子筛的酸强度,并改变了B酸/L酸比例;同时由于MgO堵塞部分孔道造成分子筛比表面积降低,进一步降低了分子筛表面酸性位的数量,影响甲苯甲醇烷基化反应性能和产物分布.MgO修饰后的HZSM-5分子筛,虽然使甲苯转化率降低,抑制了甲苯歧化反应、深度烷基化反应和缩聚反应的发生,但是有利于对二甲苯和乙基甲苯的生成,表现出一定的择形催化性能.

酸碱电解质对碳纤维表面电化学活化的影响

以超高惰性表面沥青基碳纤维为研究对象,采用XPS、Raman光谱、动态接触角、单丝拉伸强度和层间剪切强度(ILSS)等方法考察了H_(2)SO_(4)和NH_(4)HCO_(3)电解质对碳纤维表面电化学活化的影响。实验结果表明,以1%(w)的H_(2)SO_(4)为电解质时最优电流强度为1 A,碳纤维的拉伸强度保留率为86%,ILSS为39.7 MPa,较未处理碳纤维提高了64%;以4%(w)的NH_(4)HCO_(3)为电解质时最优电流强度为2 A,处理后碳纤维的单丝拉伸强度不变,ILSS为39.3 MPa。受酸碱环境电解产生活性氧的机理影响,以NH_(4)HCO_(3)为电解质时,活性氧产生速率相对较慢,氧化环境相对温和,碳纤维表面受损较弱,力学性能保留率较高。

有机弱碱体系中氢型硅铝MCM-41介孔分子筛的合成及表征

以有机胺为碱源合成出硅铝介孔分子筛ＭＣＭ－４１， 并将合成产物的性能与采用传统方法（以氢氧化钠为碱源）合成的产物进行了对比． 所合成产物经焙烧脱除有机表面活性剂后即为氢型． ＸＲＤ和ＴＥＭ 结果表明， 所合成的产物骨架具有很高的有序度． 固体核磁共振结果显示， 铝原子以四配位的形式存在于样品的原粉中． 经过高温焙烧， 有少量骨架铝脱出骨架， 转变成六配位形式．

氨基磺酸系高效减水剂表面与分散性能研究

本文研究了氨基磺酸系高效减水剂ASP的表面性能和分散性能。结果表明,ASP是一种非引气型高效减水剂,不能降低水的表面张力;它在水泥颗粒表面的吸附量及水泥颗粒的ξ-电位均比萘系减水剂FDN小,但ASP具有比FDN更好的减水分散性能和更高的抗压强度。ASP良好的分散能力是静电斥力和空间位阻共同作用的结果。

活性炭的表面化学改性研究进展

针对活性炭表面化学性质的氧化改性、还原改性、金属负载改性、酸碱改性进行了综述,并对活性炭改性在饮用水处理中应用的前景进行了讨论,认为根据原水水质对活性炭进行适当的改性处理可提高对水中有机物的去除效果。