Advances in the study of coke formation over zeolite catalysts in the methanol-to-hydrocarbon process

Liu, B.; Slocombe, Daniel; Al-Kinany, Mohammed C.; Al‐Megren, Hamid A.; Wang, J.; Arden, J. W.; Vai, Alex T.; González-Cortés, Sergio; Xiao, Tiancun; Кузнецов, В. Л.; Edwards, Peter P.

doi:10.1007/s13203-016-0156-z

Cited by 47 publications

(23 citation statements)

References 38 publications

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“…The selectivity to coke decreased with a rising Si : Al ratio as expected, since acidic sites in the zeolite and aromatics formation on its external surface are known to generate coke. 44 The fact that strong acidity is necessary for EDC dehydrochlorination, while it seems to promote CO x and coke formation, excludes the as-prepared zeolite based catalysts from successful application in ethene oxychlorination to VCM. One remaining strategy to tune the Table 2.…”

Section: Catalysis Science and Technology Papermentioning

confidence: 99%

Dual catalyst system for selective vinyl chloride production via ethene oxychlorination

Scharfe

Paunović

Mitchell

et al. 2020

Catal. Sci. Technol.

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Section: Catalysis Science and Technology Papermentioning

confidence: 99%

Dual catalyst system for selective vinyl chloride production via ethene oxychlorination

Scharfe

Paunović

Mitchell

et al. 2020

Catal. Sci. Technol.

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“…Specifically, exploration and the accrued knowledge of dehydration catalytic reaction at specific temperatures will later serve to inform on zeolite acidic or basic active sites during reaction. A review of the advantages and the practical implementations of employing such characterization techniques using the various kinds of zeolites is given in the literature [21,[92][93][94][95][96][97][98][99][100]. Moreover, it is possible to retard coke formation [101] by utilizing local eight-ring clinoptilolite zeolite as acid catalyst.…”

Section: Potential and Proposed Implementation Of Characterization Tementioning

confidence: 99%

“…Table 2 presents summary of conditions and parameters for the methyl butynol catalytic test reaction on natural materials [99,102]. A good understanding of the operating parameters like reaction temperatures, reaction mechanisms, the conversion, selectivity, and the activation energy and more results about iele modulus are crucial factors in deciding on diffusion limitation and subsequently, will lead to a greater knowledge of zeolite coke formation during reaction [100,101]. In addition, the implementation of the characterization method, the gas phase test reaction, methyl butynol (MBOH) as suggested in this article, will also lead to a better comprehension of the behaviour of active sites in their three existing forms: acidic, basic, and amphoteric reaction pathways.…”

Section: Componentsmentioning

confidence: 99%

“…Additionally, using local zeolite in production will encourage greater interest in its research in academic institutions in Saudi Arabia together with the collaborative projects, which may potentially be established with institutes worldwide. Such future research should lead to the discovery of novel, beneficial methodologies and procedures for zeolite modification such as those suggested in this article [38,100,101,103]. e end goal is to gain a more detailed understanding and information about the structure, active sites, and chemical properties of local modified zeolites.…”

Section: Componentsmentioning

confidence: 99%

“…In addition, the identification of the active acidic centers by temperature-programmed desorption of ammonia is required. (iv) Based on previous studies [87,100,101,103,122,128], local investigation of natural clinoptilolite by acid or base treatment is required in order to gain a complete understanding of its properties and in discovering ways to exploit them and use the local zeolite in a variety of industrial applications such as in coke reduction. Performance of kinetics and thermodynamics investigations will be necessary to examine the diffusion limitation for the new formed nano local zeolite.…”

Section: Proposed Future Plans For Local Natural Clinoptilolitementioning

confidence: 99%

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Overview of Current and Future Perspectives of Saudi Arabian Natural Clinoptilolite Zeolite: A Case Review

Alsawalha

2019

Journal of Chemistry

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After a thorough review of existing studies of clinoptilolite zeolites, three areas for potential investigation of the Saudi Arabian zeolites were found. They are the characterizations, the catalytic activity, active sites, and uses of natural clinoptilolite zeolites. First, no analysis is available worldwide to compare the percentage weight of local zeolites with those sourced from other countries, nor does one exist for the establishment on the zeolite conversion of MBOH with water on acidic catalysts at lower temperatures. Secondly, a review of current literature on the topic revealed that basic and active sites of Saudi Arabian zeolites have yet to be examined. Future investigation of zeolite catalytic activity can be achieved by methyl butynol test reaction (MBOH) and absorption-desorption of ammonia. In the characterization of a range of international materials, the methyl butynol test reaction was utilized, including on natural zeolites, natural clays, and synthesized hydrotalcites. However, the catalytic performance of natural Saudi Arabian clinoptilolite zeolites by test reaction of MBOH conversion has not been yet investigated. Therefore, this article also includes an outline of the general testing conditions and parameters required to execute the accurate characterization of local Saudi clinoptilolite under optimal test conditions. Likewise, knowledge of the important active acidic centers of local materials is prescribed. This can be ascertained by determining the conditions together with the test parameters for the application of the “temperature-programmed desorption of ammonia” method in order to obtain an accurate determination of local Saudi clinoptilolite acidic centers. Additionally, an outline of the catalytic activity of worldwide clinoptilolite is given in this article together with kinetic investigations of other sources for the clinoptilolite zeolite in order to form the basis for the testing of local Saudi clinoptilolite. The percentage average of chemical composition (Wt.%) of natural clinoptilolite from various countries is also included. Finally, a future research plan is proposed here. This will form the basis for a complete study or survey to be compiled detailing the modifications needed to increase the surface areas for Saudi natural clinoptilolite zeolites using different methods of modifications. This could enhance its application as acid catalysts for use in the retardation of coke formation and for membrane separation on cationic exchange.

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Utilization of Deposited Coke on Zeolites During the Catalytic Cracking of Nitrogen‐Containing Polymer for the Oxygen Reduction Reaction

Kokuryo,

Shu,

Taniguchi

et al. 2023

Advanced Sustainable Systems

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This work focuses on the development of a new method to utilize deposited coke on zeolite catalysts, formed during the plastic waste cracking. Nitrogen‐doped carbon catalysts are prepared using nylon‐66 and Zn2+ ion‐exchanged ZSM‐5 zeolites. After the cracking reaction, nitrogen‐doped carbon materials are obtained by removing zeolites from zeolite/coke composites using base and acid treatment. The synthesized N‐doped carbon using Zn2+ type ZSM‐5 zeolites exhibits higher catalytic performance on the oxygen reduction reaction (ORR) with an onset potential of 0.95 V (vs RHE) and a half‐wave potential of 0.80 V (vs RHE) than that using H+ type ZSM‐5 zeolites. The characterization revealed that the evaporation of Zn2+ in zeolites significantly enhanced the porosity of N‐doped carbon. Moreover, the aromatization and poly‐cyclization reactions promoted the generation of highly active edge Valley‐N sites, leading to their outstanding activity on ORR. This work provides new directions for the utilization of deposited coke on zeolites.

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Advances in the study of coke formation over zeolite catalysts in the methanol-to-hydrocarbon process

Cited by 47 publications

References 38 publications

Dual catalyst system for selective vinyl chloride production via ethene oxychlorination

Dual catalyst system for selective vinyl chloride production via ethene oxychlorination

Overview of Current and Future Perspectives of Saudi Arabian Natural Clinoptilolite Zeolite: A Case Review

Utilization of Deposited Coke on Zeolites During the Catalytic Cracking of Nitrogen‐Containing Polymer for the Oxygen Reduction Reaction

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