Kinetic modeling based on complex reaction theory for n-butane catalytic cracking over HZSM-5

Barghi, Bijan; Karimzadeh, Ramin

doi:10.1007/s11144-015-0918-0

Cited by 8 publications

(2 citation statements)

References 19 publications

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“…Light olefins, propylene and ethylene, are among the largest volumes of petrochemicals, which account for a significant portion of the market demand in the world [1][2][3][4][5]. Due to the limitation of thermal cracking in controlling the olefin product, feed dependence and the global concern about high operating temperatures, catalytic cracking has been taken into account as a traditional method of producing light olefin to overcome the quoted deficiencies [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

The effect of water and zinc loading on LPG catalytic cracking for light olefin production using Response Surface Methodology

Barghi¹,

Karimzadeh²,

Niidu³

2021

PEAS

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Optimization of liquefied petroleum gas (LPG) catalytic cracking is one of the most fundamental issues in light olefin production. The Response Surface Methodology (RSM) 5level3factor central composite design (CCD) was used to investigate the effects of zinc loading, water and temperature on ZSM5 performance. The results show that there is an optimum point for initial propylene and ethylene yields by changing the temperature (from 566 to 634 °C) of zinc metal loading in ZSM5 (from 0.23 to 1.57 wt%) and the water/LPG ratio (from 0.32 to 2.68), with the yields being 22.34 wt% and 28.20 wt%, respectively. The experimental data were satisfactorily fitted to quadratic models by using multiple regression analysis over the range of operating conditions. The Response Surface Methodology determined the optimal Zn loading set (0.96 wt%), water/LPG ratio (1.86) and temperature (633.6 °C) to obtain the best result for the initial yields of ethylene and propylene. For ethylene and propylene yield responses, in a quadratic model, Fvalues showed 15.08 and 54.93, respectively, which states that the models were wellfitted.

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Section: Introductionmentioning

confidence: 99%

The effect of water and zinc loading on LPG catalytic cracking for light olefin production using Response Surface Methodology

Barghi¹,

Karimzadeh²,

Niidu³

2021

PEAS

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“…It is well known that relatively simple mathematical formulas can sometimes be used to describe the kinetic curves in mechanisms that are in fact more complex than implied by the simple function in the fitting process [3,4,6,[10][11][12][13][14]. There are a large number of reasons why this phenomenon might arise.…”

Section: Introductionmentioning

confidence: 99%

Double Exponential Evaluation under Non-Pseudo-First-Order Conditions: A Mixed Second-Order Process Followed by a First-Order Reaction

Kiss

Ősz

2017

Int. J. Chem. Kinet.

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In this paper, a double exponential approximating approach is described for a quite common kinetic model (mixed second‐order formation of an intermediate followed by its first‐order decay) under non‐pseudo–first‐order conditions (i.e., when the initial ratio of the two reactants is between 1 and 10). For the evaluation, first the exact kinetic curves predicted by the two‐step model were calculated and then fitted to a double exponential function. The goodness of the fits and the estimated parameters of the double exponential function for both I and P concentrations were determined as a function of the rate constants and initial concentrations in the two‐step model. It was found that the fit of the double exponential function is acceptable or very good under these conditions despite the fact that none of the reagents is in a large excess. Since UV–vis absorption spectroscopy is probably the most common technique to follow kinetic traces, we also made efforts to deal with the typical properties of monitoring the process through UV–vis. It was found that the experimental curves can be fitted quite well with a double exponential function if the reagents have minor absorption compared to the intermediate and/or product. The connection between the observed rate constants and the rate constants of the above‐mentioned mechanism is also studied.

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Analytical solutions for the rate equations of irreversible two-step consecutive processes with mixed second order later steps

Lente

2016

J Math Chem

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Kinetic modeling based on complex reaction theory for n-butane catalytic cracking over HZSM-5

Cited by 8 publications

References 19 publications

The effect of water and zinc loading on LPG catalytic cracking for light olefin production using Response Surface Methodology

The effect of water and zinc loading on LPG catalytic cracking for light olefin production using Response Surface Methodology

Double Exponential Evaluation under Non-Pseudo-First-Order Conditions: A Mixed Second-Order Process Followed by a First-Order Reaction

Analytical solutions for the rate equations of irreversible two-step consecutive processes with mixed second order later steps

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