Bulk Molecular Characterization Approach for the Simulation of FCC Feedstocks

Bollas, George M.; Vasalos, I.A.; Lappas, A. A.; Iatridis, D. K.; Tsioni, G. K.

doi:10.1021/ie034239a

“…This was attributed to the high aromatic contents in the feeds containing LCO .The study has found an optimum content of LCO in the FCC was to be 7 vol % ,which maximizes both gasoline production and gasoline RON. [5] in their research studies on bulk molecular characterization approach for the simulation of FCC feedstocks. In their study they had presented a bulk molecular characterization approach for the simulation of FCC feedstock regarding their relative potential to enhance catalytic cracking and coke formation .The final models for the prediction of crackability and coking tendency incorporated the specific gravity, the refractive index, and the TBP distillation of the feedstocks, along with the sulfur ,nitrogen, and carbon contents.…”

Section: Initial Components In Feedmentioning

confidence: 99%

Modeling and Simulation of Fluidized Catalytic Cracking Riser Reactor Using Pseudo Reaction Kinetics : A Review

P.K¹,

Rishabh²

2017

IJET

1

0

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The fluid catalytic cracking(FCC) is one of the key process unit in modern oil refining . FCC process converts heavy distillates like gas oil or residue to gasoline and middle distillates using cracking catalyst.FCC consist of two interconnected gas -solid fluidized bed reactor: riser and regenerator .FCC process is very complex and require good understanding of many factors such as kinetic models, reaction kinetic, fluid dynamics, feed and catalyst effects, temperature, residence time in the riser, catalyst deactivation and its regeneration. The performance of the reactor are measured in term of yield of gasoline and light gases, feed conversion, coke yield etc. A number of operating variables can be optimized for economical operation of FCC unit.

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“…The pseudo-steady state and dynamic sub-models that constitute the dynamic simulator, as developed in CPERI, have been presented in the literature (Bollas et al, 2002;Bollas et al, 2004;Faltsi-Saravelou, Vasalos & Dimogiorgas, 1991) and will be briefly adduced in this section. A kinetic-hydrodynamic model was developed for the simulation of the pilot riser reactor in pseudo-steady state conditions (Bollas et al, 2002).…”

Section: Model Descriptionmentioning

confidence: 99%

“…The prediction of gas-oil conversion and coke yield are the only two lumps of the riser sub-model, essential for inclusion in the complete simulator, which reduces the necessity of using a more detailed lumped model. The effect of feedstock properties on gas-oil conversion and coke yield was expressed through semi-empirical correlations developed on the basis of experiments performed with constant catalyst and a variety of feedstocks (Bollas et al, 2004). The effect of catalyst type was expressed through a "catalyst index" (Bollas et al, 2004).…”

Section: Model Descriptionmentioning

confidence: 99%

“…The effect of feedstock properties on gas-oil conversion and coke yield was expressed through semi-empirical correlations developed on the basis of experiments performed with constant catalyst and a variety of feedstocks (Bollas et al, 2004). The effect of catalyst type was expressed through a "catalyst index" (Bollas et al, 2004). The model of the regenerator is based on the two-phase theory (Davidson, Clift & Harrison, 1985), in which the gas-solids flow is assumed to follow the bubbling bed regime, consisting of two zones: a dense zone at the regenerator bottom comprised by a bubble and an emulsion phase, and a dilute zone at the regenerator top, called the freeboard.…”

Section: Model Descriptionmentioning

confidence: 99%

“…(1) and (2), was simulated with a "bulk molecular characterization approach" (Bollas et al, 2004), that is the calculation of the relative (compared to a reference feedstock) potential of an FCC feedstock to enhance catalytic cracking conversion (crackability) and coke formation (coking tendency). The proposed models focus on the needs of industry; hence they include the bulk feedstock properties of Fig.…”

Section: Simulation Of Regeneratormentioning

confidence: 99%

See 2 more Smart Citations

Integrated FCC riser—regenerator dynamics studied in a fluid catalytic cracking pilot plant

Bollas

¹

,

Vasalos

²

,

Lappas

³

et al. 2007

Chemical Engineering Science

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In this paper a dynamic simulator of the FCC pilot plant, operated in Chemical Process Engineering Research Institute (CPERI), is presented. The simulator was developed and verified on the basis of steady-state and dynamic experiments. The operation of the pilot plant permits the execution of case studies for recording of the dynamic responses of the unit, by imposing substantial step changes in a number of the manipulated variables. The comparison between the dynamic behavior of the unit and this predicted by the simulator, arise useful conclusions on both the similarities of the pilot plant to commercial units along with the ability of the simulator to depict the main dynamic characteristics of the integrated system.The simulator predicts the wt% feed conversion, the wt% coke yield and the heat consumed by the catalytic reactions in the FCC riser on the basis of semi-empirical models developed in CPERI and simulates the regenerator according to the two-phase theory, with a dilute phase model in account for post-combustion reactions. The riser and regenerator temperature, the stripper and regenerator pressure drop and the composition of the regenerator flue gas are measured on line and are used for verification of the ability of the simulator to predict the dynamic transients between steady states in both open-and closed-loop unit operation. All the available process variables such as the reaction conversion, the coke yield, the carbon on regenerated catalyst and the catalyst circulation rate are used for the validation of the steady state performance of the simulator. The results reveal the ability of the simulator to predict accurately the operation of the pilot plant in both steady state and dynamic conditions. The dynamic simulator can serve as the basis for the development of a model based control structure for the pilot plant, besides its use as a tool for process optimization studies.

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Fluid Catalytic Cracking

Cheng¹,

Habib²,

Rajagopalan³

et al. 2008

Handbook of Heterogeneous Catalysis

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The sections in this article are Introduction and Overview History FCC Today Position in a Modern Petroleum Refinery Environmental Issues FCC Unit Hardware and Operations Unit Types Heat Balance Modes of Operation Regeneration Mode—Partial Burn vs. Full Burn Resid Processing Petrochemical Mode (Light Olefins) FCC Feeds Sources and Trends Molecular Types Characterization Effects on FCC Unit Operation Conradson Carbon and Feed Heaviness Feedstock Composition Metals: Ni , V , Na and Fe Sulfur Nitrogen The Chemistry of Catalytic Cracking Carbocations Formation of Carbocations Isomerization Reactions CarbonCarbon Bond Breaking by Beta‐Scission Hydride Transfer (also Referred to as Hydrogen Transfer) Heteroatom Chemistry: Sulfur FCC Catalysts Description and Formulation Zeolite Component Zeolite Modifications Zeolite Activity and Selectivity Effects Matrix Commercial Matrices Effect of Matrix on Selectivity Characterization ZSM ‐5 Additives FCCU Environmental Emissions Controls Overview—Catalyst Versus Hardware Particulates Carbon Monoxide ( CO ) Sulfur Oxides ( SO x ) Nitrogen Oxides ( NO x ) Laboratory Evaluations and Pilot Plant Testing Accelerated Aging of Catalysts Simulation of Metals Poisoning Reactor Types—Fixed Bed vs. Fluid Bed vs. Transport Phase Temperature Profile and Isothermal vs. Adiabatic Testing Summary and Future Trends in Catalytic Cracking

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Bulk Molecular Characterization Approach for the Simulation of FCC Feedstocks

Cited by 33 publications

References 24 publications

Modeling and Simulation of Fluidized Catalytic Cracking Riser Reactor Using Pseudo Reaction Kinetics : A Review

Modeling and Simulation of Fluidized Catalytic Cracking Riser Reactor Using Pseudo Reaction Kinetics : A Review

Integrated FCC riser—regenerator dynamics studied in a fluid catalytic cracking pilot plant

Fluid Catalytic Cracking

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