Effect of the Post‐Treatment of HZSM‐5 on Catalytic Performance for Methanol to Aromatics

Li, Hui; Dong, Peng; Dong, Jun; Zhao, Xiuge; Li, Chunqiang; Cheng, Chuntian; Li, Guixian

doi:10.1002/slct.202000118

Cited by 8 publications

(5 citation statements)

References 46 publications

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“…However, it is imperative to develop new technologies because of the depletion of oil. The conversion of methanol to hydrocarbons over acidic zeolite catalysts is now considered an important and feasible non-petroleum route to obtain valuable chemicals [10][11][12][13][14][15][16][17][18]. Therefore, it is a significative work to design a shape selectivity catalyst for high PX selectivity in methanol to aromatics conversion (MTA).…”

Section: Introductionmentioning

confidence: 99%

Selective Formation of Para-Xylene by Methanol Aromatization over Phosphorous Modified ZSM-5 Zeolites

et al. 2020

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Phosphorous modified ZSM-5 zeolites were synthesized by incipient wetness impregnation. Their performances for the methanol to aromatics conversion (MTA) were subsequently evaluated and the relationship between the catalyst structure and performance was focused on. The obtained results indicated that the introduction of phosphorous resulted in the modification of the catalyst structure characteristics and acidic properties, i.e., the reduction in the external surface area and micropore volume, the narrowing of the pore size, and the decrease in the quantity and strength of acid sites. As a result, the P/HZSM-5 catalyst exhibited the enhanced selectivity for the para-xylene (PX) in xylene isomers and xylene in aromatics, and their increase degrees were intensified with the increasing P content. The selectivity of PX in X increased from 23.8% to nearly 90% when P content was 5 wt.%. Meanwhile, the selectivity of xylene in aromatics was enhanced from 41.3% to 60.2%.

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Section: Introductionmentioning

confidence: 99%

Selective Formation of Para-Xylene by Methanol Aromatization over Phosphorous Modified ZSM-5 Zeolites

et al. 2020

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“…Aromatic compounds, which include benzene, toluene, and xylenes (BTX), are the potential building blocks for a wide variety of products, such as plastics, resins, solvents, and pharmaceuticals, and the demand for BTX is progressively growing due to the rapid development of these applications. , Among them, para -xylene ( p -X) is considered to be a special aromatic building unit used for the production of terephthalic acid and dimethyl-terephthalate, essential monomers for the synthesis of a variety of end products such as poly(ethylene terephthalate) (PET) bottles, fibers, resins, plastics, etc. , Terephthalic acid was mainly produced by an AMOCO process that involves aerobic catalytic oxidation of p -xylene in an acid medium using cobalt, manganese, and bromide catalysts . It was estimated that the global market for p -X has consistently grown by ∼10% annually over the last several years and reached 45 million tons in 2016 .…”

Section: Introductionmentioning

confidence: 99%

Renewable p-Xylene Production by Catalytic Conversion of Crude Bioglycerol (GTA^-pX Process)

Singh

Arumugam

Kumar

et al. 2023

Ind. Eng. Chem. Res.

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The studies report an efficient vapor-phase continuous-flow process that operates on a ZSM-5 micro−mesoporous composite catalyst system (facilitated by molecular-level interaction of tetraethyl orthosilicate (TEOS) and Zn species) for the production of sustainable para-xylene (p-X)-enriched alkyl-aromatics from crude bioglycerol. The process achieved 100% conversion of glycerol by coprocessing with methanol to produce industrially important liquid stock possessing ∼85% alkyl-aromatics, especially xylene isomers, which is the highest ever reported to the best of our knowledge. The xylene isomers consisting of ∼57% p-X are attractive for renewable petrochemical and polymer (poly(ethylene terephthalate)) production applications. The liquid stock consisting of xylene-rich alkyl-aromatics with minimum benzene content and possessing a high octane rating (research octane rating (RON) = 104) also has potential for gasoline blending applications.

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“…para -Xylene (PX) is an organic compound in which two hydrogen atoms at the para position on the benzene ring are swapped for methyl groups. It is one of the most significant aromatic hydrocarbon compounds and the primary raw material for many petrochemical products. − In the industrial production, high-purity p -xylene is obtained from mixed xylene by adsorption or crystallization. , If the mother liquor's PX concentration is low, the adsorption technique will be more efficient. Otherwise, using the crystallization technique is more advantageous.…”

Section: Introductionmentioning

confidence: 99%

CFD-PBE Simulation of para-Xylene Crystallization Behavior and Process Amplification under Different Operating Conditions

Dong,

Wu,

Liu

et al. 2023

Ind. Eng. Chem. Res.

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The crystallization technology is one of the most potential ways to produce para-xylene (PX) with high purity, but it has some drawbacks such as low yield and difficult to control crystallization due to the insufficient study of the PX nucleation characteristics and growth behavior. To further investigate this issue, this paper couples the Euler−Euler model and population balance equation (PBE) model, correlates the PX crystallization kinetics, and accurately solves the PBE using the Gaussian integral hypothesis and product difference algorithm, which innovatively and directly simulates the PX suspension crystallization process and yields its multiphysical field characteristics. A multiobjective genetic algorithm is then used to study and optimize the crystallization mechanism and variation patterns, and the PX crystallization amplification law is derived. The results can be concluded as follows.There is a complete internal circulation flow in the crystallizer, and the fluid near the stirring paddle, at the entrance, and at the bottom has the strongest molecular kinetic energy and mixing degree. The crystal concentration and size increase exponentially before 750 s of crystallization, after which the growth trend decreases and gradually reaches dynamic equilibrium. The inlet velocity and stirring speed are inversely connected with the average particle size and particle size distribution interval, while supersaturation is positively correlated with both. The supersaturation has the most obvious effect on the crystal size distribution (CSD) curve. In comparison to the original settings, the optimized operating parameters raise the average particle size of PX by 6.68% and decrease the distribution interval by 38.21%. At last, the sedimentation velocity can be employed as an amplification factor to simplify the amplification process. This paper might serve as a theoretical reference for PX crystallization research and process optimization.

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Effect of the Post‐Treatment of HZSM‐5 on Catalytic Performance for Methanol to Aromatics

Cited by 8 publications

References 46 publications

Selective Formation of Para-Xylene by Methanol Aromatization over Phosphorous Modified ZSM-5 Zeolites

Selective Formation of Para-Xylene by Methanol Aromatization over Phosphorous Modified ZSM-5 Zeolites

Renewable p-Xylene Production by Catalytic Conversion of Crude Bioglycerol (GTA^-pX Process)

CFD-PBE Simulation of para-Xylene Crystallization Behavior and Process Amplification under Different Operating Conditions

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Effect of the Post‐Treatment of HZSM‐5 on Catalytic Performance for Methanol to Aromatics

Cited by 8 publications

References 46 publications

Selective Formation of Para-Xylene by Methanol Aromatization over Phosphorous Modified ZSM-5 Zeolites

Selective Formation of Para-Xylene by Methanol Aromatization over Phosphorous Modified ZSM-5 Zeolites

Renewable p-Xylene Production by Catalytic Conversion of Crude Bioglycerol (GTA-pX Process)

CFD-PBE Simulation of para-Xylene Crystallization Behavior and Process Amplification under Different Operating Conditions

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Product

Resources

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Renewable p-Xylene Production by Catalytic Conversion of Crude Bioglycerol (GTA^-pX Process)