2010
DOI: 10.1007/s11814-010-0172-0
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4-Lump kinetic model for vacuum gas oil hydrocracker involving hydrogen consumption

Abstract: A 4-lump kinetic model including hydrogen consumption for hydrocracking of vacuum gas oil in a pilot scale reactor is proposed. The advantage of this work over the previous ones is consideration of hydrogen consumption, imposed by converting vacuum gas oil to light products, which is implemented in the kinetic model by a quadratic expression as similar as response surface modeling. This approach considers vacuum gas oil (VGO) and unconverted oil as one lump whilst others are distillate, naphtha and gas. The pi… Show more

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Cited by 42 publications
(33 citation statements)
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“…Moreover, higher liquid flow rate gives greater liquid holdup, which evidently decreases the contact of liquid and gas reactants at the catalyst active site, by increasing film thickness. Figure 5 also illustrates that the yield of naphtha and kerosene was decreased by increasing the LHSV which was in agreement with the role of the residence time-the smaller the LHSV, the better the hydrotreating [3]. The small difference in conversion between LHSV = 0.3 and LHSV = 1 is attributed to the effect on hydrogen consumption.…”
Section: Effect Of Lhsv On Process Conversionsupporting
confidence: 74%
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“…Moreover, higher liquid flow rate gives greater liquid holdup, which evidently decreases the contact of liquid and gas reactants at the catalyst active site, by increasing film thickness. Figure 5 also illustrates that the yield of naphtha and kerosene was decreased by increasing the LHSV which was in agreement with the role of the residence time-the smaller the LHSV, the better the hydrotreating [3]. The small difference in conversion between LHSV = 0.3 and LHSV = 1 is attributed to the effect on hydrogen consumption.…”
Section: Effect Of Lhsv On Process Conversionsupporting
confidence: 74%
“…4. At low temperature, the conversion of RCR was very low, then increased gradually with increasing reaction temperature from 653 to 693 K. The yield of naphtha and kerosene was decreased by increasing the LHSV which agreed with the role of the smaller the LHSV, the better the hydrotreating [34]. The role of temperature was routine, for naphtha and kerosene the temperature stimulates the hydrogenolysis reactions, so that the yield of both was improved.…”
Section: Effect Of Temperature On Process Conversionmentioning
confidence: 57%
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“…The device, catalyst, feed and operating conditions were described completely in the previous work [25]. The reactor consisted of a cylindrical vessel with an internal diameter of 0.016 m and height of 1.22 m (see Fig.…”
Section: Experimental Datamentioning
confidence: 99%