Method for producing gasoline through hydrogenation conversion of aromatic hydrocarbon-containing diesel oil
A technology for hydroconversion and hydrocracking, which is used in hydrocarbon oil treatment products, hydrocarbon oil treatment, and hydrotreating processes, etc., can solve the problems of low octane number of gasoline products, ensure long-term operation and reduce excessive saturated effect
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Embodiment 1
[0042] use figure 1 process shown. There are three reactors, R1 is a hydrogenation pretreatment reactor, R2 and R3 are hydrogenation conversion reactors. R1 is filled with catalyst A, R2 is filled with catalyst A and catalyst B, and R3 is filled with catalyst B. In the initial stage of operation, R2 is short-circuited, FCC diesel and hydrogen are mixed into R1, and the effluent is obtained into R3 to obtain products, which are separated and fractionated to obtain gas, gasoline products and diesel products. After 5,500 hours of operation, the process is changed, and R2 is cut into the process flow: FCC diesel is mixed with hydrogen and enters R1, the obtained effluent enters R2, and the obtained effluent enters R3, and the obtained products are separated and fractionated to obtain gas, gasoline products and diesel products. Process conditions and product properties are shown in Table 3.
Embodiment 2
[0046] use figure 1 process shown. There are three reactors, R1 is a hydrogenation pretreatment reactor, R2 and R3 are hydrogenation conversion reactors. R1 is filled with catalyst A, R2 is filled with catalyst A and catalyst B, and R3 is filled with catalyst B. At the initial stage of operation, R2 is short-circuited, raw material oil and hydrogen are mixed into R1, and the effluent is obtained into R3 to obtain products, which are separated and fractionated to obtain gas, gasoline products and diesel products. After 5,500 hours of operation, the process is changed, and R2 is cut into the process flow: the raw material oil is mixed with hydrogen and enters R1, the obtained effluent enters R2, and the obtained effluent enters R3, and the obtained products are separated and fractionated to obtain gas, gasoline products and diesel products. Process conditions and product properties are shown in Table 5.
[0047] Table 3 process conditions and product properties
[0048]
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