煤焦油重组分悬浮床加氢裂化生焦机理

以中/低温煤焦油重组分(CTAR)为原料进行悬浮床加氢实验,采用1 H-NMR、XRD、IR、元素分析及相对分子质量测定手段对生焦前驱体(HI)进行分析,并以显微镜观测、SEM、IR等方法对焦炭的官能团、堆积结构及表面形态进行了研究,推测CTAR加氢过程的生焦机理。结果表明,CTAR悬浮床加氢效果理想,HI中芳环稠度低,侧链少而短,平均相对分子质量低,分子间缔合性小,没有芳香片层堆积结构,不易裂化产生大分子自由基,是轻质生焦前驱体。焦炭为1μm左右的球状颗粒吸附于炭质颗粒而形成的10μm左右的聚合体。CTAR中分布的甲苯不溶物及硫化的催化剂颗粒在反应中提供的"2个结焦中心(催化剂和微晶粒子),1个吸附中心(炭质颗粒)"使焦粒变小、壁相焦减少。

高氮原料催化裂化转化研究

采用氧化铝色谱柱及索氏抽提的方式对高氮原料分离富集,利用傅里叶变换离子回旋共振质谱仪及GC-MS对分离所得到的碱性氮化物、非碱性氮化物及稠环芳烃结构进行了分析,结果表明:高氮原料中的碱性氮化物一般包括吖啶、环烷基吖啶、氮杂芘;非碱性氮化物主要为苯并咔唑;稠环芳烃以含有3个环的短侧链芳烃为主。对高氮原料的催化裂化生焦机理进行了分析,提出高氮原料催化裂化转化可以通过预处理-FCC组合工艺(物理改质)及分区转化工艺(化学改质)来实现,通过分区转化工艺可以使高氮原料转化率提高5.84百分点,并可改善产品分布,汽油收率提高6.49百分点。

Catalytic cracking mechanisms of tar model compounds

B3LYP/6-31G(d,p) method was used to investigate the catalytic cracking mechanism of biomass tar model compound.Phenol,toluene and benzene were selected as the tar model compounds and CaO was selected as the catalyst.The pathways of tar compound radical absorbed by CaO were determined firstly through comparing enthalpy changes of the absorption,and then Mulliken population changes were analyzed.The results show that the absorption of tar model compound radical and CaO is an exothermic reaction.Formation of C—O—Ca is more easily than that of C—Ca—O and formation of Caromatic—Caromatic—Ca—O is more easily than that of Caromatic—C(O)—Ca—O.The C—C bond Mulliken populations in tar model compound radicals are reduced by 11.9%,10.5% and 15.5% in the case of a hydrogen atom removed,and those are 15.7%,14.3% and 16.3% in the case of two hydrogen atoms removed through the absorption of CaO.Catalytic ability of CaO acting on the tar model compound is in an order of phenol>benzene>toluene.