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This research aims to develop a non-toxic multifunctional additive to improve catalytic cracking performance.

April 10, 2026

An Environmentally Friendly Multifunctional Additive for Catalytic Cracking

Key Points

This research aims to develop a non-toxic multifunctional additive to improve catalytic cracking performance.
Selection of non-toxic components for additive development
Characterization of additive using TPR, BET, and XRD
Performance evaluation in a catalytic cracking riser unit
Reduced dry gas yield by 0.40 percentage points
Decreased hydrogen yield by 15.8%
Lowered coke yield by 1.09 percentage points
Reduced heavy oil yield by 0.45 percentage points
Increased gasoline yield by 2.18 percentage points
Increased overall light oil yield by 2.87 percentage points

Abstract

Metal passivator technology is the most widely adopted strategy for inhibiting heavy metal poisoning in catalytic cracking. In this study, a simple, efficient, and environmentally friendly multifunctional additive has been developed by selecting non-toxic components. The mechanism of action of this additive was characterized via TPR, BET, and XRD, and its performance was evaluated in a catalytic cracking riser unit. The results demonstrate that the multifunctional additive reduces dry gas yield by 0.40 percentage points, hydrogen yield by 15.8%, coke yield by 1.09 percentage points, and heavy oil yield by 0.45 percentage points. Concurrently, gasoline and overall light oil yields increased by 2.18 and 2.87 percentage points, respectively. The additive exhibits excellent efficacy in suppressing Ni and V poisoning while optimizing product distribution.

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An Environmentally Friendly Multifunctional Additive for Catalytic Cracking

Key Points

Abstract

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