以葡萄糖为第二模板剂制备用于废塑料催化裂解制有用化学品的硅酸钠/赤泥基ZSM-5分子筛

Preparation of sodium silicate/red mud-based ZSM-5 with glucose as a second template for catalytic cracking of waste plastics into useful chemicals.

作者信息

Wang Xiaofeng, Li Fuwei, Ali Asad, Gu Hengshuo, Fu Hongbing, Li Zhixia, Lin Hongfei

机构信息

School of Chemistry and Chemical Engineering, Guangxi University Nanning 530004 People's Republic of China

Guangxi Bossco Environmental Protection Technology Co., Ltd Nanning 530007 People's Republic of China.

出版信息

RSC Adv. 2022 Aug 10;12(34):22161-22174. doi: 10.1039/d2ra03541c. eCollection 2022 Aug 4.

DOI:10.1039/d2ra03541c

PMID:36043089

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9364678/

Abstract

ZSM-5 was economically synthesized with red mud (RM) and industrial sodium silicate (ISS) in a tetrapropylammonium bromide (TPABr)-glucose dual-template system. The roles of glucose, Fe and Ca in RM on the formation of ZSM-5 were investigated. The catalytic performances of the resultant ZSM-5 were tested by cracking waste plastics. It was found that the formation of ZSM-5 was attributed to a synergistic effect between TPABr and glucose. The addition of glucose decreased the pH value in the crystallization solution and thus promoted the crystallization effect. Glucose acted as a hard template to generate mesopores. Fe atoms were partly distributed in the framework and partly adsorbed in the pores of ZSM-5, and helped to generate more Lewis acid sites. Ca atoms were mainly adsorbed in the pores of ZSM-5, and showed an inhibitory effect on the formation of zeolites. The synthesized ZSM-5 showed a weakly acidic and mesoporous structure and achieved an enhanced effect on producing gaseous products (gas yield: 85.3%), especially light olefins (C ) (selectivity: 77.1%) from cracking of low density polyethylene at 500 °C. The long-term cracking experiment showed that the synthesized ZSM-5 is superior in converting waste plastics to light olefins (ethylene and propene) than the commercial ZSM-5.

摘要

在四丙基溴化铵（TPABr）-葡萄糖双模板体系中，以赤泥（RM）和工业硅酸钠（ISS）为原料，经济地合成了ZSM-5。研究了葡萄糖、RM中的铁和钙对ZSM-5形成的作用。通过裂解废塑料测试了所得ZSM-5的催化性能。发现ZSM-5的形成归因于TPABr和葡萄糖之间的协同作用。葡萄糖的加入降低了结晶溶液的pH值，从而促进了结晶效果。葡萄糖作为硬模板生成介孔。铁原子部分分布在骨架中，部分吸附在ZSM-5的孔中，有助于产生更多的路易斯酸位点。钙原子主要吸附在ZSM-5的孔中，对沸石的形成有抑制作用。合成的ZSM-5具有弱酸性和介孔结构，在500℃下裂解低密度聚乙烯时，对气态产物（气体产率：85.3%），尤其是轻质烯烃（C）（选择性：77.1%）的生成有增强作用。长期裂解实验表明，合成的ZSM-5在将废塑料转化为轻质烯烃（乙烯和丙烯）方面优于商业ZSM-5。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a005/9364678/c4ac1aa4f3da/d2ra03541c-f1.jpg

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以葡萄糖为第二模板剂制备用于废塑料催化裂解制有用化学品的硅酸钠/赤泥基ZSM-5分子筛

Preparation of sodium silicate/red mud-based ZSM-5 with glucose as a second template for catalytic cracking of waste plastics into useful chemicals.

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