Method for activity recovery of low-activity hydrogenation upgrading catalyst
A hydrogenation modification and low-activity technology, which is applied in the direction of molecular sieve catalysts, chemical instruments and methods, physical/chemical process catalysts, etc., can solve the problem of activity reduction of hydrogenation modification catalysts, achieve good activity recovery effect, and accelerate activity Stable, easy-to-use effects
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Embodiment 1
[0025]Into the bed of the low-activity hydro-upgrading catalyst, feed the feedstock oil after hydrofinishing treatment, the nitrogen content of the feedstock oil after hydrofinishing treatment is 10ppm, and the content of the low-activity hydro-upgrade catalyst is calculated by weight Contain 10% Y molecular sieve, 0.20% nitrogen element, increase the reaction temperature to 385°C, adjust the temperature, control the conversion rate to be constant at 15%, and stabilize for 36 hours; continue to adjust the reaction temperature, control the conversion rate to be constant at 25%, stable 36 hours; the recovery process is over, and the process conditions are adjusted to enter normal production, and the controlled conversion depth is the same as that of Comparative Example 1.
Embodiment 2
[0027] Into the bed of the low-activity hydro-upgrading catalyst, feed the feedstock oil after hydrofinishing treatment, the nitrogen content of the feedstock oil after hydrofinishing treatment is 10ppm, and the content of the low-activity hydro-upgrade catalyst is calculated by weight Contain 10% Y molecular sieve, 0.20% nitrogen element, increase the reaction temperature to 385°C, adjust the temperature, control the conversion rate to be constant at 18%, and stabilize for 36 hours; continue to adjust the reaction temperature, control the conversion rate to be constant at 28%, stable 36 hours; the recovery process is over, and the process conditions are adjusted to enter normal production, and the controlled conversion depth is the same as that of Comparative Example 2.
Embodiment 3
[0029] Into the bed of the low-activity hydro-upgrading catalyst, feed the feedstock oil after hydrofinishing treatment, the nitrogen content of the feedstock oil after hydrofinishing treatment is 10ppm, and the content of the low-activity hydro-upgrade catalyst is calculated by weight Contain 10% Y molecular sieve, 0.23% nitrogen element, increase the reaction temperature to 385°C, adjust the temperature, control the conversion rate to be constant at 12%, and keep it stable for 24 hours; continue to adjust the reaction temperature, control the conversion rate to be constant at 25%, stable 24 hours; the recovery process is over, and the process conditions are adjusted to enter normal production, and the controlled conversion depth is the same as that of Comparative Example 1.
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