This paper presents the research results aimed at the assessment of the impact of the group composition of Kazakhstan and West Siberian heavy vacuum distillate on the yield and composition of the catalytic cracking products. The laboratory research was performed to determine the physical and chemical characteristics and group composition of two samples of the heavy vacuum distillate of Kazakhstan and West Siberian oil. The patterns of changing yield of wet gas, light and heavy gas oil, coke, and gasoline depending on the composition of the feedstock were established using mathematical model of catalytic cracking
Vacuum residue well know as waste product from refinery crude oil refinery and need a further proces...
In this research, Vacuum Gas Oil and/or used lubricating oil is subjected to thermal cracking (pyrol...
Application of separation techniques to residua and other heavy feedstocks raises the issue of the m...
AbstractThis paper presents the research results aimed at the assessment of the impact of the group ...
Calculation method to determine the group composition of the heavy fraction of vacuum distillate wit...
The development of technologies for processing oil residues is relevant and promising for Kazakhstan...
Received: 12.06.22. Revised: 27.06.22. Accepted: 27.06.22. Available online: 04.07.22.The developmen...
The features of oxidative cracking of vacuum distillate of Aturau and Zhetybai oil have been investi...
The petroleum industry is challenged with the processing of present heavy crudes caused by high comp...
The paper explores physical and chemical properties and composition of heavy oil from Yarega field a...
The paper describes the catalytic cracking of heavy petroleum feedstock on catalysts based natural T...
In the paper, bulk property and chemical composition of Kazakhstan vacuum residuum were characterize...
The paper presents the experimental study of possibility of heavy pyrolysis tar refining to get a na...
The group hydrocarbon composition of 360-400 °C straight-run distillate of the petroleum from Talaka...
Arabian Heavy crude oil was fractionated into distillate and vacuum residue fractions. The vacuum re...
Vacuum residue well know as waste product from refinery crude oil refinery and need a further proces...
In this research, Vacuum Gas Oil and/or used lubricating oil is subjected to thermal cracking (pyrol...
Application of separation techniques to residua and other heavy feedstocks raises the issue of the m...
AbstractThis paper presents the research results aimed at the assessment of the impact of the group ...
Calculation method to determine the group composition of the heavy fraction of vacuum distillate wit...
The development of technologies for processing oil residues is relevant and promising for Kazakhstan...
Received: 12.06.22. Revised: 27.06.22. Accepted: 27.06.22. Available online: 04.07.22.The developmen...
The features of oxidative cracking of vacuum distillate of Aturau and Zhetybai oil have been investi...
The petroleum industry is challenged with the processing of present heavy crudes caused by high comp...
The paper explores physical and chemical properties and composition of heavy oil from Yarega field a...
The paper describes the catalytic cracking of heavy petroleum feedstock on catalysts based natural T...
In the paper, bulk property and chemical composition of Kazakhstan vacuum residuum were characterize...
The paper presents the experimental study of possibility of heavy pyrolysis tar refining to get a na...
The group hydrocarbon composition of 360-400 °C straight-run distillate of the petroleum from Talaka...
Arabian Heavy crude oil was fractionated into distillate and vacuum residue fractions. The vacuum re...
Vacuum residue well know as waste product from refinery crude oil refinery and need a further proces...
In this research, Vacuum Gas Oil and/or used lubricating oil is subjected to thermal cracking (pyrol...
Application of separation techniques to residua and other heavy feedstocks raises the issue of the m...
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