Mathematical model of advanced refining technology adapted to the feedstock conditions of the republic of Kazakhstan

Abstract

Oil in Western Kazakhstan has significantly different in physical and chemical characteristics depending on the geographical location of oil fields, geological age and depth of burial. This has an impact on the composition and yield of light fractions in the catalytic cracking. A mathematical model of a catalytic cracking adapted to the feedstock conditions of the Republic of Kazakhstan presented in this paper. The impact of technological mode on the yield and composition of light fractions from the catalytic cracking unit was carried out using mathematical model of catalytic cracking. Patterns of change in the yield of rich gas, the light and heavy gas oil, gasoline and coke depending on the composition of the feedstock and technological mode of reactor-regenerator unit was defined.

Original language	English
Pages (from-to)	740-745
Number of pages	6
Journal	Petroleum and Coal
Volume	58
Issue number	7
Publication status	Published - 2016

Keywords

Light fraction yield
Advanced petroleum refining
Catalytic cracking
Group composition of feedstock
Mathematical modelling
Resource efficiency

ASJC Scopus subject areas

Energy(all)

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title = "Mathematical model of advanced refining technology adapted to the feedstock conditions of the republic of Kazakhstan",

abstract = "Oil in Western Kazakhstan has significantly different in physical and chemical characteristics depending on the geographical location of oil fields, geological age and depth of burial. This has an impact on the composition and yield of light fractions in the catalytic cracking. A mathematical model of a catalytic cracking adapted to the feedstock conditions of the Republic of Kazakhstan presented in this paper. The impact of technological mode on the yield and composition of light fractions from the catalytic cracking unit was carried out using mathematical model of catalytic cracking. Patterns of change in the yield of rich gas, the light and heavy gas oil, gasoline and coke depending on the composition of the feedstock and technological mode of reactor-regenerator unit was defined.",

keywords = "Light fraction yield, Advanced petroleum refining, Catalytic cracking, Group composition of feedstock, Mathematical modelling, Resource efficiency",

author = "G. Nazarova and E. Ivashkina and E. Ivanchina and G. Burumbaeva and A. Svarovskii and G. Seytenova",

year = "2016",

language = "English",

volume = "58",

pages = "740--745",

journal = "Petroleum and Coal",

issn = "1337-7027",

publisher = "Vyskumny ustav pre ropu a uhlovodikove plyny (VURUP)",

number = "7",

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TY - JOUR

T1 - Mathematical model of advanced refining technology adapted to the feedstock conditions of the republic of Kazakhstan

AU - Nazarova, G.

AU - Ivashkina, E.

AU - Ivanchina, E.

AU - Burumbaeva, G.

AU - Svarovskii, A.

AU - Seytenova, G.

PY - 2016

Y1 - 2016

N2 - Oil in Western Kazakhstan has significantly different in physical and chemical characteristics depending on the geographical location of oil fields, geological age and depth of burial. This has an impact on the composition and yield of light fractions in the catalytic cracking. A mathematical model of a catalytic cracking adapted to the feedstock conditions of the Republic of Kazakhstan presented in this paper. The impact of technological mode on the yield and composition of light fractions from the catalytic cracking unit was carried out using mathematical model of catalytic cracking. Patterns of change in the yield of rich gas, the light and heavy gas oil, gasoline and coke depending on the composition of the feedstock and technological mode of reactor-regenerator unit was defined.

AB - Oil in Western Kazakhstan has significantly different in physical and chemical characteristics depending on the geographical location of oil fields, geological age and depth of burial. This has an impact on the composition and yield of light fractions in the catalytic cracking. A mathematical model of a catalytic cracking adapted to the feedstock conditions of the Republic of Kazakhstan presented in this paper. The impact of technological mode on the yield and composition of light fractions from the catalytic cracking unit was carried out using mathematical model of catalytic cracking. Patterns of change in the yield of rich gas, the light and heavy gas oil, gasoline and coke depending on the composition of the feedstock and technological mode of reactor-regenerator unit was defined.

KW - Light fraction yield

KW - Advanced petroleum refining

KW - Catalytic cracking

KW - Group composition of feedstock

KW - Mathematical modelling

KW - Resource efficiency

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VL - 58

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