ANALYSIS OF CATALYST LOSS IN FCCU BASED ON PARTICLE SIZE DISTRIBUTION

Abstract

Abstract: In view of the catalyst lost fault in FCCU, the inlet catalyst of the three-stage cyclone separator was sampled on site, and the particle size distribution and the scanning electron microscopy of the lost catalyst were analyzed. The results showed that there were multi-peaks in the particle size distribution curve of the sample, and the particle size corresponding to the peak value was 0.8, 9 and 30 microns, respectively. The first two smaller particle size particles were formed due to serious frictional wear and breakage of particles. On the other hand, because the separation efficiency of the cyclone separator decreases, the higher median particle size of the lost catalyst resulted in the peak of larger particle size.

Key words: FCC, catalyst loss, cause, particle size distribution, cyclone

CLC Number:

[1]	. STUDY ON SEPARATED POLYCYCLIC AROMATIC HYDROCARBONS FOR THINNING AND VISCOSITY REDUCTION OF ULTRA-HEAVY OIL [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2024, 55(3): 55-60.
[2]	. PREPARATION OF Ni/ZnO-Zn/ZSM-5 BIFUNCTIONAL COUPLING CATALYST AND COUPLED AROMATIZATION DURING REACTIVE ADSORPTIVE DESULPHURIZATION [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2024, 55(2): 160-167.
[3]	. APPLICATION OF DISPERSED MOLYBDENUM-BASED CATALYSTS IN CO- HYDROPROCESSING OF COAL MACERALS AND FCC SLURRY [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2023, 54(9): 77-83.
[4]	. PILOT STUDY ON HYDROCYCLONE-COALESCENCE METHOD FOR OIL AND SOLID REMOVAL FROM ACID WATER [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2023, 54(9): 114-118.
[5]	. RESEARCH ON THE CORROSION-EROSION PREDICTION OF FCC SLURRY PIPE BY NUMERICAL SIMULATION [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2023, 54(6): 126-132.
[6]	. ANALYSIS AND TREATMENT OF AMMONIUM SALT SCALING IN REACTION SYSTEM OF DIESEL HYDROGENATION UNIT [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2023, 54(5): 120-124.
[7]	. STUDY ON ELEMENT DISTRIBUTION OF FCC CATALYST BASED ON FIB-SEM AND TRANSMISSION ELECTRON MICROSCOPE [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2023, 54(3): 48-53.
[8]	. PREPARATION OF MESOPHASE PITCH BY THERMAL CONVERSION OF AROMATICS-RICH COMPONENTS IN FCC SLURRY [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2023, 54(11): 22-28.
[9]	. STUDY ON PREPARATION OF NEEDLE COKE RAW MATERIALS BY HYDROTREATING FCC SLURRY [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2023, 54(10): 39-44.
[10]	. STUDY ON COLLISION COALESCENCE PROCESS OF OIL DROPLETS BASED ON FLUID PARTICLE MODEL [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2023, 54(1): 95-103.
[11]	. THREE-DIMENSIONAL GAS-PHASE FLOW FIELD IN A COUPLED CYCLONE WITH BUILT-IN GRANULAR BED FILTER [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2022, 53(6): 84-92.
[12]	. IMPLEMENTATION PLAN AND EFFECT OF INCREASING PROPYLENE PRODUCTION BY RECYCLING LIGHT GASOLINE DISTILLATE INTO MIP UNIT [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2022, 53(6): 18-22.
[13]	. INFLUENCE OF HIGH PROPORTION BLENDING CATALYTIC CRACKING SLURRY ON DELAYED COKER [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2022, 53(12): 8-12.
[14]	. APPLICATION OF WASTE FCC CATALYST IN CATALYTIC OZONATION OF AMINE-CONTAINING WASTEWATER AND ITS KINETICS STUDY [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2022, 53(1): 112-117.
[15]	. COMMERCIAL APPLICATION OF DIESEL CATALYTIC CONVERSION TECHNOLOGY FOR PRODUCING HIGH-OCTANE GASOLINE AND REDUCING DIESEL [J]. PETROLEUM PROCESSING AND PETROCHEMICALS, 2021, 52(9): 36-40.

ANALYSIS OF CATALYST LOSS IN FCCU BASED ON PARTICLE SIZE DISTRIBUTION

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments