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Catalytic Pyrolysis of Vacuum Gas Oil
Chemistry and Technology of Fuels and Oils, 2021Studies of thermal and catalytic pyrolysis of vacuum gas oil in a flow-type reactor have been carried out. The main regularities in the yield of the target products of the process – ethylene, propylene and butylenes – are revealed. The influence of the catalyst on the change in the conditions of catalytic pyrolysis in comparison with thermal pyrolysis ...
R. G. Khasanov +2 more
openaire +2 more sources
Correlation of pour point of gas oil and vacuum gas oil fractions with compositional parameters
Energy & Fuels, 1989 We have carried out a detailed investigation of the pour points (PPt) of gas oil (GO) (250-375 °C boiling range) and vacuum gas oil (VGO) (375-500 °C) fractions obtained from Bombay High crude oil. The aim of the study was to obtain an insight into the dependence of the pour point on compositional parameters such as the n-paraffin concentration (PC ...
R. Krishna +5 more
openaire +2 more sources
Pyrolysis of hydrotreated vacuum gas oil
Petroleum Chemistry, 2015Pyrolysis of hydrotreated vacuum gas oil obtained using the T-Star hydrocracking process has been studied in a laboratory unit. At a reactor temperature of 820°C, a contact time of 0.6 s, and a gas oil/steam ratio of 0.8, the ethylene yield is 25.7 wt %.
L. S. Glebov, E. V. Glebova
exaly +2 more sources
Hydrocracking of vacuum gas oil over NiMo/zeolite-Al2O3: Influence of zeolite properties
Fuel, 2019Hydrocracking of vacuum gas oil has been studied over NiMo/zeolite-Al2O3 catalysts. Three different zeolites have been used for catalysts preparation: zeolites Beta (BEA) and Y (FAU) having small crystal size and zeolite Y modified by recrystallization ...
I G Danilova, I S Golubev, M O Kazakov
exaly +2 more sources
Energy Conversion and Management, 2019
The co-processing of bio-oil and vacuum gas oil (VGO) in an existing fluid catalytic cracker (FCC) for productions of gasoline and diesel has been proposed and regarded as a possible technique to realize partial replacement of fossil fuels.
Le Wu, Yuqi Wang, Peiyu Wang
exaly +2 more sources
The co-processing of bio-oil and vacuum gas oil (VGO) in an existing fluid catalytic cracker (FCC) for productions of gasoline and diesel has been proposed and regarded as a possible technique to realize partial replacement of fossil fuels.
Le Wu, Yuqi Wang, Peiyu Wang
exaly +2 more sources
Design and optimization of bio-oil co-processing with vacuum gas oil in a refinery
Energy Conversion and Management, 2019The prices of the bio-diesel and bio-gasoline are normally significantly high when compared to the petroleum-derived fuels. The co-processing of bio-oil and vacuum gas oil in a fluid catalytic cracker (FCC) has been proposed to utilize existing refinery ...
Le Wu, Yuqi Wang
exaly +2 more sources
Energy Conversion and Management, 2020
Co-processing of ligno-cellulosic bio-oil and vacuum gas oil (VGO) in an existing refinery for the production of gasoline with renewable carbon has demonstrated a good technical and economic feasibility and the potential to partial replace the petroleum ...
Le Wu, Yuqi Wang
exaly +2 more sources
Co-processing of ligno-cellulosic bio-oil and vacuum gas oil (VGO) in an existing refinery for the production of gasoline with renewable carbon has demonstrated a good technical and economic feasibility and the potential to partial replace the petroleum ...
Le Wu, Yuqi Wang
exaly +2 more sources
, 2020 To satisfy the global demand, more and more high quality fuels pure or converted from heavy oil cuts, such as vacuum gas oil (VGO), into highly refined fuels, are demanded1.
Marco Piparo +4 more
semanticscholar +2 more sources
, 2020 Integration of renewable raw materials in existing refineries is most likely the shortest way for successful, large-scale introduction of biofuels in the transport sector in the short and medium te...
N. Bergvall +3 more
semanticscholar +2 more sources