The tuning of pore structures and acidity for Zn/Al layered double hydroxides:The application on selective hydrodesulfurization for FCC gasoline

Co–Mo catalysts applied on the hydrodesulfurization（HDS） for FCC gasoline were prepared with Zn–Al layered double hydroxides（LDHs） to improve their performances,and the effects of pore structures and acidity on HDS performances were studied in detail. A series of Zn–Al/LDHs samples with different pore structures and acidities are synthesized on the bases of co-precipitation of OH-,CO2-,Al3＋,and Zn2＋. The neutralization p H is a main factor to affect the pore structures and acidity of Zn–Al/LDHs,and a series of Zn–Al/LDHs with different pore structures and acidities are obtained. Based on the representative samples with different specific surface areas（SBET） and acidities,three Co Mo/LDHs catalysts were prepared,and their HDS performances were compared with traditional Co Mo/Al2O3 catalysts. The results indicated that catalysts prepared with high SBETpossessed high HDS activity,and Br？nsted acid sites could reduce the thiol content in the product to some extent. All the three catalysts prepared with LDHs displayed little lower HDS activity but higher selectivity than Co Mo/Al2O3,and could restrain the reactions of re-combination between olefin and H2 S which could be due to the existence of Br？nsted acid sites.

Two Types of Novel Feedstock Injection Structures of the FCC Riser Reactor

Based on the analysis of flow characteristics of the FCC riser feedstock injection zone, two novel feedstock injection structures are put forward. By investigating three flow parameters in the feedstock injection zone under the three different structures (the traditional and the novel No. 1, No. 2 structures): the local density, the particle backmixng ratio, and the jet eigen-concentration, the flow feature under three structures were obtained. The experimental results demonstrate that the flow features under both proposed structures are obviously improved comparing with those under the traditional structure. Especially, the performance of the deflector-structured No. 2 is more desirable than that of No. 1.

Ti对单相FCC的CoCrNi体系中/高熵合金组织与性能的影响

在CoCrNi三元、CoCrFeNi四元和Al_(0.3)CoCrFeNi五元合金中分别添加0.1~0.5(摩尔比)Ti,通过真空电弧炉制备出高硬度和高压缩强度的中/高熵CoCrNiTi_(x)、CoCrFeNiTi_(x)和Al_(0.3)CoCrFeNiTi_(x)合金棒材。Ti添加量为0.1的合金棒材(以下简称Ti_(0.1)合金,其余合金作相同处理)均保持单相FCC结构;Ti_(0.3)合金均出现少量的新相(η或R);CoCrNiTi_(0.5)合金由FCC+BCC+η+σ相组成,Al_(0.3)CoCrFeNiTi_(0.5)合金由FCC+BCC+R+B_(2)相组成,且二者微观组织均呈“花朵”状;而CoCrFeNiTi_(0.5)合金则由FCC+Laves+R+σ相组成,为树枝晶状结构。随着Ti含量的增加,三种体系合金的硬度均逐渐提高,且提高幅度按CoCrNiTi_(x)、Al_(0.3)CoCrFeNiTi_(x)、CoCrFeNiTi_(x)顺序降低,其中CoCrNiTi_(x)合金的硬度从CoCrNi合金的164HV提升至CoCrNiTi_(0.5)合金的865HV,提高幅度达427%。Ti_(0)和Ti_(0.1)合金均表现出优异的压缩塑性(不断裂),Ti_(0.3)和Ti_(0.5)合金的压缩屈服强度均显著提高,其中Al_(0.3)CoCrFeNiTi_(x)合金的压缩屈服强度从Al_(0.3)CoCrFeNiTi_(0.3)合金的630 MPa提高至Al_(0.3)CoCrFeNiTi_(0.5)合金的1642 MPa,提高幅度达160%;但抗压强度和压缩变形量有所降低。

MICROSTRUCTURE AND MORPHOLOGY OF HIGH MANGANESE NON-MAGNETIC STEEL

Two types of lath structures and kinked ε martensite were observed in the high manganese non-magnetic steel.Both the short non-continuous lath formed by quenching and the long thin straight lath induced by plastic deformation are composed of ε martensite and fcc twin. The transformation mechanism was discussed.The crystallographic analysis indicates that the e martensite at both sides of the fcc twin boundary is of kinked morphology owing to the orientation of their matrices differing from each other.The kinked region is hcp twin.

FCC催化剂中REHY分子筛的结构与酸性

用XRD,N2吸附,NH3TPD和Py IR等手段对REHY分子筛进行了表征,并通过多晶XRD法测定了稀土离子在Y分子筛骨架外的分布.结果表明,在含水条件下,定位于Y型分子筛β笼SⅠ′位的RE3+与骨架氧及定位于SⅡ′位的H2O配位,稳定了分子筛的骨架,减少了分子筛酸性中的最强酸部分;定位的RE3+通过极化定位的配位水,增加了分子筛的中强酸,减缓了RE3+取代H+所引起的酸量下降.从结构测定可推测出,在FCC催化剂中Y型分子筛上RE3+的最佳量应为每个晶胞含11个稀土离子,并完全定位于β笼的SⅠ′位.

黏结剂对FCC催化剂孔结构的影响

黏结剂的性能直接影响FCC催化剂的孔结构。运用电镜等分析方法分析黏结剂的粒子特征,根据黏结剂的粒度分布计算黏结剂粒子堆积孔的孔分布,研究黏结剂对FCC催化剂孔结构的影响。结果表明,FCC催化剂的中孔主要来自黏结剂粒子间松散堆积形成的堆积孔。

Ni_(38)Co_(25)Cr_(15)Fe_(10)Al_(10)Ti_(1)Nb_(1)非等原子比高熵合金的拉伸性能

为了进一步提高FCC高熵合金的强度,利用真空电弧熔炼法制备了Ni_(38)Co_(25)Cr_(15)Fe_(10)Al_(10)Ti_(1)Nb_(1)非等原子比高熵合金。结果表明:高熵合金的凝固组织由单相FCC结构组成,铸带具有典型枝晶结构且存在元素偏析。高熵合金具有较高的抗再结晶性能,退火温度为1000℃时再结晶分数仅约为45.1%,退火温度为1050℃时发生完全再结晶,此时晶粒尺寸细小均匀,平均晶粒尺寸约为4.25μm。退火Ni_(38)Co_(25)Cr_(15)Fe_(10)Al_(10)Ti_(1)Nb_(1)高熵合金具有优异的拉伸性能。经过1000℃退火后合金抗拉强度可达1640 MPa,伸长率约为20%,经过1050℃退火后合金抗拉强度和伸长率分别约为1580 MPa和28%。

FCC油浆组成结构特征对延迟焦化及后续加工的影响

从重油催化裂化外甩油浆性质、组成结构特征入手,借助热转化反应特性理论和经验公式,计算出重油FCC油浆经延迟焦化加工的焦炭收率达到40%以上。对比工业生产中延迟焦化装置掺炼FCC油浆前后产品收率,模拟出FCC油浆经焦化加工的产品分布,验证了此前计算的理论焦炭收率,核算出加工效益。就焦化装置和当前国家燃料油消费税政策而言,FCC油浆加工比作为商品外销经济效益好。但焦化装置掺炼油浆对重油催化裂化装置产品分布有不良影响,催化装置效益明显下降。综合焦化、催化两套装置的整体效益看,加工油浆是没有效益的。延迟焦化掺炼FCC油浆对产品质量、设备运行也造成一定的影响。

板条状FCC/ BCC相界结构和长大机制

魏氏铁素体、上贝氏体和板条马氏体均是过冷奥氏体板条状相变产物，它们的ＦＣＣ／ＢＣＣ相界都接近（１１１）ｆ密排面。本文用高分辨电镜在原子尺度上观察证实了板条马氏体相界台阶—位错结构，结合相变晶体学改进了板条马氏体和魏氏铁素体相界结构模型，这两个模型代表了（１１１）ｆ／（０１１）ｂ原子界面外延匹配可能的位错配置类型，同它们各自的长大动力学相容。贝氏体不可能有上述二者之外的相界结构，应通过试验确定，它属于上述两种模型中哪一种。文中研究表明，结合相变晶体学精确地实验和分析贝氏体相界结构。

FCC油浆精制前后焦化蜡油产物的组成和结构分析

运用GC-FID/MS和NMR从分子水平表征FCC油浆加氢精制前后焦化蜡油产物的详细组成和结构。对其中121种芳烃单体化合物进行分子识别,基本实现该焦化蜡油中多环芳烃、氢化多环芳烃、噻吩和咔唑以及这些化合物的烷基取代物的定量,并考察了油浆精制前后焦化蜡油的结构及其变化。结果表明,尽管FCC油浆加氢精制前后焦化蜡油产物的烃族组成相近,但化合物组成和结构有较大变化。FCC油浆精制后再焦化,蜡油产物中无取代母核多环芳烃加氢转化及缩合减少,烷基桥链的多芳核结构裂化减少,硫、氮杂原子芳香化合物被较多地脱除,C_1和C_2取代芳烃、单环芳烃以及环烷芳烃含量增加,说明加氢精制对FCC油浆延迟焦化过程有利,其焦化蜡油产物的组成和结构得到改善。

FCC进料雾化喷嘴结构对内部流场及混合特性的影响

采用CFD方法,基于欧拉-欧拉方法的Mixture多相流模型,对一种内混式催化裂化进料雾化喷嘴的内流场进行数值模拟,研究喷嘴内部气液两相流场的分布状况及其混合特性。为提高喷嘴的雾化效果,对喷嘴的结构进行内置螺旋的改进。结构改进前后的模拟结果表明:原结构喷嘴内气液两相分布较集中,且流体的切向速度几乎为零,这使喷嘴的雾化效果下降,喷雾范围受限,不利于原料油与提升管内催化剂的接触;螺旋结构可使流体在混合腔高速旋转,使流体获得切向速度,最大切向速度可达18.49 m/s,增大气液两相流的湍流强度,有效提高流体平均速度,对提高喷嘴的雾化性能有促进作用。

低碳铁素体钢中纳米富Cu相由9R向fcc结构的转变

低碳铁素体钢样品经880℃加热0.5 h水淬,660℃调质处理10 h,然后在400℃等温时效11000 h后,利用高分辨透射电镜(HRTEM)和能谱仪(EDS),分析低碳铁素体钢中析出的纳米富Cu相不同晶体结构的特征及联系。观察到长轴约9.5 nm,短轴约6.6 nm的短棒状9R结构的纳米富Cu相,并且均为单斜9R以及呈互为孪晶结构,说明Cu早期析出时优先转变成具有互为孪生关系的单斜9R结构,同时还观察到孪生结构的fcc结构的Cu,以及具有莫尔条纹的非孪晶fcc结构的Cu。表明9R结构除了退孪晶化转变成非孪晶fcc结构外,还可以直接转变成具有孪生关系的fcc结构的纳米富Cu相。

FCC金属结构稳定性和声子谱的MAEAM研究

应用改进分析型嵌入原子方法(MAEAM)计算fcc金属的结构稳定性和声子谱.考虑更远邻原子之间的相互作用,提出新的两体势函数,并采用新的截尾处理函数和加强光滑连接条件.通过拟合单空位迁移能、结合能、三个独立弹性常数及晶体平衡条件,确定了模型参数.在体积不变条件下,计算金属不同结构的能量,说明Ag、Al、Au、Cu、Ir、Ni、Pd、Pt和Rh的fcc结构比较稳定.它们的能量-体积曲线与Rose方程结果基本一致,进一步说明了体积变化时的结构稳定性.同时发现[100]、[110]和[111]三个方向声子谱的计算结果符合实验值和其它计算结果.

ZSM-5催化剂上FCC汽油加氢脱硫及芳构化性能的研究

采用四丙基氢氧化铵与氢氧化钠混合碱溶液对ZSM-5分子筛进行改性,运用X射线衍射、扫描电镜、N2物理吸附和NH3程序升温脱附等手段对样品进行表征。结果表明,改性后HZSM-5分子筛的介孔数量增多,比表面积、孔体积增大,强酸位酸量增多。在催化裂化汽油加氢脱硫及芳构化反应中,ZSM-5分子筛催化剂性能优异,呈现出良好的脱硫性能及烯烃芳构化活性。在压力为3 MPa,温度为300℃,氢油体积比为300∶1,空速为1.5 h-1的条件下,FCC汽油脱硫率达到94.2%,芳烃产率为20.7%

INFLUENCE OF A MISORIENTATION ANGLE ON AN ENERGR OF THE SYMMETRIC GRAIN BOUNDARY IN FCC METALS

In the present work the research of grain boundary (CB) energy versus angle of misorientation in fcc metals Al, Cu, An and Ni was carried out. An axis of CB misorientation is a direction [100], angle of misorientation makes from 2皍p in 23*. The interatomic interaction was opproximated by Morse' s pair semi-empirical potential. Two variants of relaxation technique were used: (1) rigid relax- ation with the change of atom quantity per a GB (vacancy relaxation ) and (2) full atomic relaxation by a molecular static method. The obtained orientation dependence has a good agreement with experi- ment. There are cusps on a curve in the range of special GB angles.The comparison of obtained curves with calculated ones in model Van der Merwe was carried out. Dependencies obtained in our investiga- tions are not smooth and have an oscillatory character. The oscillations reflect a discrete structure of a lattice.

Fe_(52)T_2(T=Cr,Mn,Co,Ni)合金bcc与fcc相结构的第一性原理研究

运用基于密度泛函理论的第一性原理方法研究稀释掺杂的Fe_(52)T_2(T=Cr, Mn, Co, Ni)合金铁磁bcc相和反铁磁fcc相结构的晶格参数、磁性和两相的相对稳定性。结果表明:晶格参数和体模量随掺杂元素d壳层电子个数的变化关系不能用简单的d能带填充图像解释,说明FeT合金中存在较强的磁-结构耦合效应。FeT合金的铁磁bcc相比反铁磁fcc相稳定。反铁磁相呈四方结构,晶格常数c/a比值约为1.07,此相结构可能是一个亚稳态。晶格结构的变化引起电子的重新分布,导致不同磁结构和局域原子磁矩。

用于调合高等级道路沥青的富芳烃FCC油浆复合改性工艺

采用2种改性剂对催化裂化(FCC)油浆进行复合改性,并调合制备沥青产品,分析了改性工艺对沥青产品性能的影响;采取红外光谱(FT-IR)、核磁共振(NMR)、飞行时间质谱(MALDI-TOD-MS)及元素分析等手段对FCC油浆结构进行了表征,使用Brown-Ladner(B-L)法对FCC油浆平均分子结构参数进行了计算,提出了复合改性的反应机理。结果表明:随着复合改性反应温度上升,沥青产品的性能先上升后下降;随着复合改性反应压力和时间的增加,沥青产品性能有小幅提升。复合改性反应的本质是改性剂与FCC油浆稠环芳烃之间发生的亲电取代反应,生成了具有长链结构的大分子芳烃,有效提升了FCC油浆的高温稳定性及重组分含量。

平面波展开法计算FCC反相密堆积结构光子晶体的完全禁带

本文的目的是研究FCC反相密堆积结构光子晶体在改变其结构的情况下完全禁带的变化。通过事先设定晶格常数a和组成密堆积结构的空气球的半径R,利用平面波展开法计算得到当背景材料的相对介电常数分别为rε=3.6和rε=11.9时两种不同的完全禁带。在此基础之上,又对晶体结构做了一些改动,保持a和R不变,在相邻球体的空隙中再嵌入4个半径r=0.2R的空气小球,结果发现当rε=3.6时完全禁带消失了,而rε=11.9时则产生了新的完全禁带。

Synthesis and Application of a Zeolite-containing Composite Material Made from Spent FCC Catalyst

Novel composite material with a wide pore distribution was synthesized by an in situ technique using spent FCC catalyst as raw material. The characterization results indicated that the composite material contained 56.7% of zeolite Y and exhibited a much larger specific surface area and pore volume as well as strong hydrothermal stability. Fluid catalytic cracking(FCC) catalyst was prepared based on the composite material. The results indicated that the as-prepared catalyst possessed a unique pore structure that was advantageous to the diffusion-controlled reactions. In addition, the attrition resistance, activity and hydrothermal stability of the studied catalyst were superior to those of the reference catalyst. The catalyst also exhibited excellent nickel and vanadium passivation performance, strong bottoms upgrading selectivity, and better gasoline and coke selectivity. In comparison to the reference catalyst, the yields of the gasoline and light oil increased by 1.61 and 1.31 percentage points, respectively, and the coke yield decreased by 0.22 percentage points, and the olefin content in the produced gasoline reduced by 2.51 percentage points, with the research octane number increased by 0.7 unit.

催化裂化装置沉降器内结焦的微观结构及其生长过程的分析

对催化裂化装置(FCCU)沉降器内结焦的微观结构进行分析,结果表明,结焦形态主要有4种,丝状焦、滴状焦、块状焦和颗粒状焦。各种结焦形态的成因机理不同,微观结构及生长过程也不同。丝状焦是由铁、镍金属元素催化烃类气体,以及易生焦物发生脱氢缩合反应,以催化剂颗粒形成结焦中心并逐渐长大形成细丝状焦炭;滴状焦是由稠环芳烃脱氢缩合反应而生成,高沸点未汽化油滴黏附在催化剂颗粒或器壁表面形成“焦核”,即由重芳烃、胶质、沥青质脱氢缩合反应和二烯烃聚合环化反应而生成的;块状焦是高沸点未汽化油滴相互溶解后,再脱氢缩合反应或聚合环化反应而形成的结焦;颗粒状焦是油气在气相中脱氢缩合反应或聚合环化反应形成的微小结焦颗粒相互团聚形成的颗粒簇。催化裂化装置沉降器内的结焦一般是上述几种结焦过程的组合,是催化结焦和非催化结焦过程共同作用的结果。