Development of 15-lump kinetic model of the catalytic cracking process

The article presents the stages of development and primary results of calculation of the 15-component model of catalytic cracking of gasoil. Based on the analysis of models published in the literature, the advantages and disadvantages of each of them were identified, and on the basis of these data, a new model was proposed that allows taking into account both quantitative and qualitative characteristics of the products obtained. Initial calculations showed the convergence of the new model for most components, from which it can be concluded that the model can adequately describe the mechanism of the catalytic cracking process.

1. Behjata, Y. CFD analysis of hydrodynamic, heat transfer and reaction of three phase riser reactor / Y. Behjata, S. Shahhosseinia // Chemical engineering research and design. – №89. – 2011. – P. 978–989.

2. Sadeghzadeh, J. A mathematical modeling of the riser reactor in industrial FCC unit / J. Sadeghzadeh, A. Farshi, K. Forsat // Petrol. Coal. – 2008. – Vol. 50 (2) – P. 15–24.

3. Kang, X. An Introduction to the lump kinetics model and reaction mechanism of FCC gasoline / X. Kang, X. Guo // Energy Sources. – Part A, 35:1921–1928. – 2013. – P. 343-358.

4. Akhmetov, A.F. Octane number of mixing of aromatic hydrocarbons in gasoline / A.F. Akhmetov, A.R. Gaysina, A.V. Gantsev, D.V. Gantsev // Oil and Gas Business. – 2011. – V.9. №3. – P. 105-107.

5. Akhmetov, A.F. Production of fuels with improved environmental properties / A.F. Akhmetov, Yu.V. Krasil'nikova, A.V. Gantsev // Bashkir chemical journal. – 2009. – V.16. №2. – P. 160-164.

6. Barbosa, A.C. Three dimensional simulation of catalytic cracking reactions in an industrial scale riser using a 11-lump kinetic / A.C. Barbosa, G.C. Lopes // Chemical engineering transactions. – Vol. 32. – 2013. – P.637 – 642.

7. Zhang, Numerical simulation on catalytic cracking reaction in two-stage riser reactors // China University of Petroleum. – Beijing, China. – 2005. – P.129-153.

8. Islamova, G.I. Review and analysis of mathematical model of the catalytic cracking process / G.I. Islamova, I.M. Gubaydullin // Marchuk Scientific Readings-2019 ‒ Novosibirsk: IPTS NGU, 2019. – P. 126-127.

9. Mannanova, G.I. Thirteen-lump kinetic model of the catalytic cracking process / G.I. Mannanova, I.M. Gubaydullin, K.F. Koledina // International Scientific Conference "Ufa Autumn Mathematical School". – 2019. – P. 142 – 144.

10. Mannanova, G.I. Development of a fourteen-lump kinetic model of catalytic cracking / G.I. Mannanova, I.M. Gubaydullin, G.R. Bikbova G.R. // IX International youth scientific-practical conference «Mathematical modeling of processes and systems». – 2019. – P. 235-240.

11. Ivanchina, E.D. Development of a kinetic model of the catalytic cracking process / E.D. Ivanchina, Ye.N. Ivashkina, G.Yu. Nazarova, V.I. Stebeneva, T.A. Shafran, S.V. Kiseleva, D.V. Khrapov, N.V. Korotkova, R.V. Yesipenko // Catalysis in Industry. – №6. – 2017. – P. 477-486.

12. Koledina, K.F. Multipurpose optimization of conditions for carrying out a catalytic reaction with a database of target functions / K.F. Koledina, S.N. Koledin, I.M. Gubaydullin // VIII International youth scientific-practical conference «Mathematical modeling of processes and systems». – 2018. – P. 15-18.

13. Koledin, S.N. Information system for optimizing the rate constants of the catalytic reaction with the choice of parameters / S.N. Koledin, S.A. Gabitov, K.F. Koledina, I.M. Gubaydullin // VIII International youth scientific-practical conference «Mathematical modeling of processes and systems». – 2018. – P. 19-22.

14. Akhmetov, I.V. Parallel approach to optimization of chemical processes / I.V. Akhmetov, I.M. Gubaydullin I.M., R.R. Gil'manov // "Parallel computational technologies (PCT) 2019" XIII International scientific conferetion. – 2019. – P. 450.