Abstract
ZSM-5 zeolite is widely used in catalytic cracking of hydrocarbon, but the conventional ZSM-5 zeolite deactivates quickly due to its simple microporous and long diffusion pathway. Many studies have been done to overcome these disadvantages recently. In this review, four main approaches for enhancing the catalytic performance, namely synthesis of ZSM-5 zeolite with special morphology, hierarchical ZSM-5 zeolite, nano-sized ZSM-5 zeolite and optimization of acid properties, are discussed. ZSM-5 with special morphology such as hollow, composite and nanosheet structure can effectively increase the diffusion efficiency and accessibility of acid sites, giving high catalytic activity. The accessibility of acid sites and diffusion efficiency can also be enhanced by introducing additional mesopores or macropores. By decreasing the crystal size to nanoscale, the diffusion length can be shortened. The catalytic activity increases and the amount of carbon deposition decreases with the decrease of crystal size. By regulating the acid properties of ZSM-5 with element or compound modification, the overreaction of reactants and formation of carbon deposition could be suppressed, thus enhancing the catalytic activity and light alkene selectivity. Besides, some future needs and perspectives of ZSM-5 with excellent cracking activity are addressed for researchers’ consideration.
Highlights
Zeolites are crystalline aluminosilicate fabricated by silica tetrahedron and alumina tetrahedron through oxygen bridges
Synthesis of ZSM-5 zeolite with special morphology to decrease the diffusion pathway or increase the diffusion efficiency; Synthesis of hierarchical ZSM-5 zeolite with extra mesopores or macropores to increase the diffusion efficiency of molecules and the accessibility of acid sites; Synthesis of nano-sized ZSM-5 zeolite with short diffusion length to promote the diffusion of molecules and; Optimization of the acid properties of ZSM-5 zeolite to enhance the catalytic activity
The catalytic activity of n-dodecane cracking over b-oriented ZSM-5 layers increased more than 60% and the deactivation rate decreased from 17.3% to 2.3% due to the enhanced diffusion rate in b-oriented ZSM-5 zeolite
Summary
Zeolites are crystalline aluminosilicate fabricated by silica tetrahedron and alumina tetrahedron through oxygen bridges. Synthesis of ZSM-5 zeolite with special morphology to decrease the diffusion pathway or increase the diffusion efficiency; Synthesis of hierarchical ZSM-5 zeolite with extra mesopores or macropores to increase the diffusion efficiency of molecules and the accessibility of acid sites; Synthesis of nano-sized ZSM-5 zeolite with short diffusion length to promote the diffusion of molecules and; Optimization of the acid properties of ZSM-5 zeolite to enhance the catalytic activity For each of these strategies, its advantages and limitations are discussed and compared with each other from the aspects of synthesis process, catalytic activity and potential for industrial application
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