Research on Upgrading Path of Efficient Conversion Process for Refining and Chemical Catalytic Cracking Feedstock

EIR

Educational Innovation Research

3029-18443029-1852

WHIOCE PUBLISHING PTE. LTD.

10.18063/EIR.v3i11.1706

Article

Research on Upgrading Path of Efficient Conversion Process for Refining and Chemical Catalytic Cracking Feedstockhttps://artdesignp.com/journal/EIR/3/11/10.18063/EIR.v3i11.1706ZhangYuhuan,MaiMingzhuo

2025

311

2025-12-20

This study addresses critical challenges in the refining and petrochemical industry, including low feedstock conversion efficiency and poor feedstock adaptability in catalytic cracking processes. Through systematic analysis of feedstock physicochemical properties and key process constraints, the research explores three strategic dimensions: feedstock pretreatment optimization, reaction process control, and process-catalyst synergy enhancement. By refining pretreatment parameters, precisely regulating operational metrics, and establishing integrated process-catalyst coordination systems, the study proposes targeted process upgrades for efficient catalytic cracking feedstock conversion. These innovations enable directional feedstock transformation and increased light oil yields, providing actionable technical solutions for improving catalytic cracking process performance, energy efficiency, and operational optimization in the refining sector.Refining and chemical industry, Catalytic cracking, Efficient feedstock conversion, Process upgrading

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