(Si+Mn)/Fe对Al-5Cu合金铸态组织及力学性能的影响

在Al-5Cu-0.3Fe高强铸造合金中添加Mn和Si,采用OM、SEM、EDS及DSC等分析方法研究(Si+Mn)/Fe质量比(K=3、4、5和6)对其铸态组织及力学性能的影响。结果表明:随着K值的增大,富Fe相形貌的变化趋势为针状→汉字状→粗大汉字状富Fe相聚集,富Fe相由针状Al 3FeMn向汉字状Al 6FeMn转变。Al-5.0Cu-0.3Fe-1Si-x Mn合金,K=4时,拉伸断口展现良好的塑性特征,合金的综合力学性能最佳,比K=3时抗拉强度和延伸率分别提高了22%和65%。Si和Mn元素对Al-5.0Cu-0.3Fe合金的富Fe相有良好的变质作用。适当减少Mn的添加量,而增加Si的含量,保持(Si+Mn)/Fe=4,有助于减少合金的孔洞缺陷,降低热裂敏感性,较好地调控富Fe相形貌和尺寸。

Higher alcohol synthesis over Cu-Fe composite oxides with high selectivity to C_(2+)OH

Cu-Fe composite oxides were prepared by co-precipitation method and tested for higher alcohol synthesis from syngas. The selectivity to C2＋OH and C6＋OH in alcohol distribution was very high while the methane product fraction in hydrocarbon distribution was rather low, demonstrating a promising potential in higher alcohols synthesis from syngas. The distribution of alcohols and hydrocarbons approximately obeyed Anderson-Schulz-Flory distribution with similar chain growth probability, indicating alcohols and hydrocarbons derived from the same intermediates. The effects of Cu/Fe molar ratio, reaction temperature and gas hourly space velocity （GHSV） on catalytic performance were studied in detail. The sample with a Cu/Fe molar ratio of 10/1 exhibited the best catalytic performance. Higher reaction temperature accelerated water-gas-shift reaction and led to lower total alcohols selectivity. GHSV showed great effect on catalytic performance and higher GHSV increased the total alcohol selectivity, indicating there existed visible dehydration reaction of alcohol into hydrocarbon.

活性金属负载量及配比对CuFe双金属催化剂催化合成混合醇的影响

采用液相还原法制备了CuFe双金属催化剂,考察了活性金属负载量及Cu、Fe摩尔比对催化剂反应活性和C_(2+)混合醇选择性的影响,分析了活性金属负载量、Cu/Fe摩尔比、催化剂结构及反应性能间的构-效关系,优化了催化剂的制备配方。结果表明,活性组分负载量的增大有助于提高催化剂的反应活性,但过量的金属负载量会导致活性组分发生团聚,影响总醇及C_(2+)混合醇的选择性;Cu/Fe摩尔比的增大抑制了催化剂的反应活性,但有助于增强CO吸附能力及Cu、Fe间的协同效应,提高产物中醇类及C_(2+)醇的选择性。综合考虑CO转化率、总醇及C_(2+)醇选择性,液相还原法制备CuFe双金属催化剂较适宜的活性组分总负载量为30%、铜铁摩尔比为3.0。

金刚石工具用FeCoCu预合金粉组成对烧结特性的影响

通过共沉淀法制备不同Fe-Cu配比的FeCoCu预合金粉,并对其微观结构进行表征与分析。同时,对3种粉体进行不同温度下的烧结实验和对烧结试样块进行力学性能及磨损质量损失进行测试,并对预合金粉与金刚石的界面结合情况进行探讨。结果表明:预合金粉中形成了Co_3Fe_7、CoFe_(15.7)、FeCu_4等中间相,在一定程度上实现合金化。3种预合金粉末的形状均为不规则状,粉末颗粒较细,且相互连接,表面疏松,有利于烧结。3种预合金粉中单质相仍占有较大比例,单质配比对烧结体性能有重要影响。Fe含量增加时,试样的理想烧结温度及烧结体力学性能均升高。Fe-Cu配比会对微观结构产生重要影响,胎体对金刚石以机械包镶为主,结合XRD及Raman光谱可知,与预合金粉烧结后的金刚石表面发生石墨化。

Fe-Cu体系催化剂中铁比的测定及其对催化剂性能的影响

用一种比较简便、快捷的化学分析法对组分较为复杂的Fe-Cu体系低碳醇合成催化剂中的铁比进行了分析 ,即用磷酸保护Fe(Ⅲ )离子 ,用碳酸钠保护Fe(Ⅱ )离子。结果表明 ,该法可有效地排除其它组分的干扰 ,分析结果重复性好 ,相对标准偏差RSD不高于 0 0 5 0 %。此外 ,将Fe -Cu体系催化剂的铁比与其催化性能关联后发现 ,铁比控制在 1 0 0～ 2 0 0内 ,催化剂显示出较好的生成醇活性和较高的C+2 醇选择性。

铜质量比对Fe/Cu还原2,4-二氯酚影响及还原途径

针对Fe/Ni、Fe/Pd双金属成本高,疏水性较差的问题,采用改性纳米Fe/Cu双金属还原水中2,4-二氯酚(2,4-DCP),考察了铜质量比(ω(Cu))对Fe/Cu还原降解2,4-DCP效果的影响,结果表明:反应进行到80 h时,ω(Cu)=10%的Fe/Cu还原效果最佳,对2,4-DCP的去除率接近100%,中间产物4-氯酚(4-CP)也基本转化为终产物苯酚(CA),CA产率达91.8%。还原通过2种途径进行:(1)2,4-DCP先被还原脱去一个氯生成中间产物4-CP,随着反应进行再被脱去一个氯生成CA;(2)2,4-DCP被直接脱去2个氯生成终产物CA。XRD分析表明:反应后Fe/Cu中的Fe^0被氧化为Fe_3O_4和Fe_2O_3,Cu^0被氧化为CuO。

直接合成二甲醚催化剂Cu-Zn-Al-Fe/HZSM-5的研究

采用水热法合成Cu-Zn-Al-Fe催化剂,使用HZSM-5作载体,考察了硝酸盐溶液浓度、老化温度、Fe含量对催化剂的影响.对制备的催化剂进行了SEM,BET,FT-IR和XRD检测.在4MPa,260℃,H2和CO2体积分数比为3的条件下,由二氧化碳加氢直接合成二甲醚(DME).结果表明:硝酸盐质量分数为10%,老化温度为150℃时制备的催化剂粒径最小,约500 nm,比表面积达200.6m2/g.在Fe的质量分数为5%时CO2的转化率达41.4%,DME的选择性达45.2%.

Low-Temperature Selective Catalytic Reduction of NO with NH_3 over Fe–Ce–O_x Catalysts

In this study, we used a simple impregnation method to prepare Fe-Ce-O x catalysts and tested them regarding their low-temperature (200-300 °C) selective catalytic reduction (SCR) of NO using NH3. We investigated the effects of Fe/Ce molar ratio, the gas hourly space velocity (GHSV), the stability and SO2/H2O resistance of the catalysts. The results showed that the FeCe(1:6)O x (Ce/Fe molar ratio is 1:6) catalyst, which has some ordered parallel channels, exhibited good SCR performance. The FeCe(1:6)O x catalyst had the highest NO conversion with an activity of 94-99% at temperatures between 200 and 300 °C at a space velocity of 28,800 h−1. The NO conversion for the FeCe(1:6)O x catalyst also reached 80-98% between 200 and 300 °C at a space velocity of 204,000 h−1. In addition, the FeCe(1:6)O x catalyst demonstrated good stability in a 10-h SCR reaction at 200-300 °C. Even in the presence of SO2 and H2O, the FeCe(1:6)O x catalyst exhibited good SCR performance.

Influence of Reaction Conditions on Methanol Synthesis and WGS Reaction in the Syngas-to-DME Process

A series of CuO-ZnO catalysts （with different Cu/Zn molar ratios） were prepared, and evaluated under the reaction conditions of syngas-to-dimethyl ether （DME） with three sorts of feed gas and different space velocity. The catalysts were characterized by X-ray diffraction （XRD） and temperatureprogrammed reduction （TPR）. The experiment results showed that the reaction conditions of syngas-to- DME process greatly affected the methanol synthesis and WGS reaction. The influence caused by Cu/Zn molar ratio was quite different on the two reactions; increasing of percentage of CO2 in feed gas was unfavorable for catalyst activity, and also inhibited both reactions; enhancement of reaction space velocity heavily influenced the performance of the catalyst, and the benefits were relatively less for methanol synthesis than for the WGS reaction.

Fe-镀Cu催化内电解法处理再生纸废水研究

以COD去除率和脱色率为指标,用Fe、Cu催化内电解法处理再生纸造纸废水。结果表明,最优工艺条件为:Fe、Cu质量比2∶1,溶液初始pH=6,反应时间1 h,反应温度30℃,稀释倍数2倍。用此反应条件处理再生纸废水,COD去除率和色度却除率分别为51.6%和96%。

Complex of Copper(Ⅱ) with 1, 4, 9, 12-Tetraaza Cyclo-2, 3, 6, 7, 10, 14, 15-Tetrabenzocetanan-5, 8, 13, 16-Tetraone by Spectrophotometry

The spectrophotometric characteristic of a new reagent 1, 4, 9, 12-tetraaza Cyclo-2, 3, 6, 7, 10, 11, 14, 15 tetrabenzocetanan-5, 8, 13, 16-tetraone (TCTCT) and its complex with Cu(Ⅱ) were studied. The reagent and its complex with Cu(Ⅱ) have a similar maximum absorbance at 446 um. In C6H4(C2O4HK)-NaOH buffer (pH=4.00), the complex of Cu(Ⅱ)-TCTCT formed when it was heated. The absorbance increased with the increase of the concentration of Cu(Ⅱ) in the range of 1 .6x10-7-5.5x 10-5 mol/L. The composition ratio of the complex was formed to be 1: 1 using the molar ratio method. The method was simple, rapid and sensitive, giving an apparent molar absorptivity of 1.25x105 L mol-1 cm-1 and the apparent stability constant of 1 .04x106. The method was directly applied of copper in fresh milk.

Cu/SiO_2催化剂结构对乙酸甲酯加氢性能的影响

采用尿素水解法制备了Cu/Si O2催化剂,探究其用于乙酸甲酯(MA)加氢制取乙醇的催化性能,并通过N2物理吸附、X射线衍射(XRD)、程序升温还原(TPR)、透射电子显微镜(TEM)和X射线光电子能谱(XPS)等表征方法分析了催化剂的物理化学特性,探究了铜负载量和还原温度等对催化剂结构的影响,以及与催化活性之间的关系.发现在铜负载量分别为10%、20%和30%(质量分数,w)的催化剂中,铜负载量为20%的催化剂因具有较多且分散均匀的活性组分而表现出最佳的加氢效果.接着在铜负载量为20%的催化剂上研究了还原温度(270,350,450°C)对催化性能的影响,发现在350°C下还原的催化剂活性最高,在最佳的反应条件下,乙酸甲酯转化率达到97.8%,乙醇选择性达到64.9%(理论最大值为66.6%),主要归属于它具有较高的铜物种分散度,最合适的Cu0/(Cu0+Cu+)摩尔比例,同时实现了解离氢气和活化乙酸甲酯的功能.

β-FeOOH气凝胶的制备及表征

用氯化铁和氢氧化钠溶液为原料制得了块状β-FeOOH气凝胶，构成气凝胶的基本粒子为长约18um、直径约5um的棒状粒子，制备过程包括聚合铁水凝胶的制备和超临界干燥两部分．初步研究了溶液羟铁摩尔比（OH-／Fe(3+)）对气凝胶密度和比表面的影响，应用BET、TEM、XRD和Mossbauer谱等手段对气凝胶样品进行了表征．结果表明，气凝胶样品是由β-FeOOH超细微粒构成的具有连续网络结构的多孔性块状固体，随着溶液的羟铁摩尔比（OH-／Fe(3+)）的增大，气凝胶的密度增大，比表面减小．

铁磷共沉淀去除水中磷酸根的效果及机制

【目的】探究环境条件改变对铁盐除磷的影响及潜在机理,为污水除磷方法的开发和应用提供理论基础。【方法】利用宏观除磷试验探明不同pH、铁磷摩尔比对水体磷酸根去除的影响;结合X-射线衍射(XRD)及热力学模型,探究化学沉淀和吸附过程中磷的去除机制。【结果】随着pH升高,磷去除率先上升后下降;随铁磷摩尔比升高,磷的去除率呈现上升趋势;当反应条件为pH=5、铁磷摩尔比3∶1时,磷的去除率最高,为89.42%。XRD和热力学模型结果表明,磷主要通过形成铁-磷沉淀,如FePO4,或被铁氧化物吸附,达到从水体中去除的目的。【结论】在铁盐除磷的过程中,共沉淀和吸附两种机制并存。pH对这两种机制均有影响,而铁磷摩尔比则主要通过调控磷的吸附过程来改变磷的去除效率。

石灰铁盐法处理高砷废酸应用研究

选择工业具有代表性的高砷污酸,研究了石灰铁盐法控制性因素,如反应终点pH、Fe/As摩尔比、反应时间及氧化方式对除砷及固砷的影响。结合工业应用实际情况,在pH=1.2、石膏晶种比1∶1、反应时间2 h的条件下,优先产出合格石膏产品。再以H_(2)O_(2)为氧化剂,H_(2)O_(2)/As摩尔比1.5,反应终点pH=8,晶种比例1∶1,Fe/As摩尔比4.5,反应时间3 h进行除砷,除砷后液As浓度0.12 mg/L,小于标准值(0.5 mg/L),除砷率接近100%,除砷渣TCLP浸出毒性为2.25 mg/L,小于标准值(3 mg/L)。该工业应用工艺方法流程简单、操作方便、成本低廉,是一种可靠安全除砷固砷工艺。

新型Cu-Co-O_x催化剂的制备及其催化燃烧甲苯的性能研究

采用浸渍法制备自制载体负载复合金属氧化物Cu-Co-Ox催化剂。研究了Cu-Co-Ox催化剂催化燃烧甲苯的活性。分别考察了Cu-Co-Ox负载量、Cu/Co(摩尔比)及焙烧温度对催化燃烧甲苯活性的影响,并采用X射线衍射(XRD)及扫描电镜(SEM)等表征技术,分别对复合金属氧化物Cu-Co-Ox的晶型与结晶形貌进行了分析。结果表明,焙烧温度为600℃,Cu-Co-Ox负载量为5%(质量分数),Cu/Co为1∶2时,Cu-Co-Ox催化燃烧甲苯的活性最高。当反应温度为250℃,甲苯的转化率达到95%以上。XRD分析表明,Cu-Co-Ox催化剂主要活性相为CuCo2O4尖晶石。

Cu-SAPO-34/堇青石原位制备条件中硅铝比的优化及其对NO_x催化还原性能的影响

在不同硅铝比条件下,采用原位水热合成技术一步制备了Cu-SAPO-34/堇青石,并通过X射线衍射(XRD)、扫描电镜(SEM)等手段对其形态结构进行了表征。同时,在模拟柴油车尾气气氛下,对催化样品的脱硝性能及抗老化性能进行了评价。研究结果表明:在催化剂制备过程中,初始凝胶中不同硅铝比的存在对CuSAPO-34的催化性能起到不同的作用,且硅铝摩尔比在0.3~0.7,整体催化剂表现出很高的脱硝活性和抗老化性能。

Study on "Blind-Ear"——Copper Deficiency Symptom in Wheat on Subtropic Hill Soils

The “blind-ear” as a Cu deficiency symptom in wheat on upland soils in the hilly area of Zhejiang Province was discussed in this paper.Through 3 years of field experiments,it was elucidated that “blind-ear” in wheat plant appeared due to the low level of available Cu in the soils,and the critical value 3 mg/kg for total Cu in the plant at grain filling stage and 1 mg/kg for available Cu(0.1 M HCl)in the soils.A basal dressing of 30 kg/ha of Cu sulfate to the soils could completely eliminate Cu deficiency symptoms,obtain normal grain yield and have residual effect for at least 3 years.

沉积物-上覆水界面有效铁浓度对内源磷再移动的影响

铁磷耦合关系是控制沉积物磷再移动的主导机制,基于薄膜梯度扩散(DGT)技术测定的沉积物-上覆水界面RFeP(有效态铁磷摩尔浓度比)可反映内源磷再移动潜力.本文总结了有效铁和磷及IF(磷扩散通量)在沉积物-上覆水界面的区域分布差异,探讨了RFeP、沉积特征和外部环境条件对内源磷再移动的影响机制.结果表明:①有效铁和磷浓度变化范围分别为0.08~10.22和0.02~3.35 mg/L,淡水高于海水;有效铁浓度表现为南方高于北方,有效磷浓度呈相反趋势.②RFeP和IF的变化范围分别为0.09~132.38和0.56~903.67 ng/(cm^(2)·d);RFeP表现为淡水高于海水,平原高于高原;IF则表现为淡水高于海水,高原高于平原.③RFeP与IF成反比,沉积物磷的高污染负荷或水生动植物生理活动会影响判别沉积物内源磷再移动潜力阈值(RFeP=2)的准确性.④对于不同的水域类型,沉积物中Fe^(2+)氧化沉淀或铁氧化物还原溶解均是控制沉积物磷再移动的关键过程,扰动、水生植物、微生物等外部环境条件通过改变沉积特征间接影响磷的再移动.为加深对沉积物内源磷再移动机制的认识,未来研究可关注磷再移动过程的多驱动力耦合作用机制及磷的吸附沉积速率.

铁改性的Mo/ZSM-5催化剂上NO的选择性催化还原反应

采用浸渍法制备了Mo/ZSM-5,Fe/ZSM-5和不同Fe和Mo摩尔比的Fe-Mo/ZSM-5样品,并以氨为还原剂对其NO选择性催化还原活性以及反应条件对催化性能的影响进行了研究.结果表明,Fe-Mo/ZSM-5样品的NOx转化率明显比单独的Mo/ZSM-5和Fe/ZSM-5的高.当n(Fe)∶n(Mo)为1.5时,Fe-Mo/ZSM-5样品具有最佳催化性能,其NOx转化率在430℃时达到了96%,并且能在高空速和不同O2气浓度的条件下保持高的催化活性.同时采用XRD和XPS技术分别对催化剂的体相结构和表面性质进行了研究,结果表明,当n(Fe)∶n(Mo)=1.5时,Fe和Mo元素之间以及与载体HZSM-5之间存在较强的相互作用,并且其表面的Mo3d的含量最高.这可能与其高的催化活性有关.另外还发现,在反应过程中Fe-Mo/ZSM-5催化剂表面的氮氧物种主要是吸附态NO,因此可以推测NO的催化还原反应机理是,在催化剂表面上,吸附态NO与吸附NH3物种直接反应生成氮气,而非经过氧化为NO2的途径.