BASF

Last updated January 31, 2026

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Cyclic metal deactivation unit: BASFRecent Research Landscape

Inefficient bottoms cracking and excessive coke formation during fluid catalytic cracking drive up operational costs and reduce high-value yields. Precise control over the alumina-silica crystallization and matrix reactivity optimizes heavy hydrocarbon conversion while minimizing carbon byproduct.

What technical problems is BASF addressing in Cyclic metal deactivation unit?

Catalytic metal poisoning degradation

(6)evidences

Standard catalysts fail to effectively crack large hydrocarbon molecules found in residuum and bottoms. Improving this conversion reduces low-value byproduct yields and prevents excessive coke formation.

Catalytic metal poisoning degradation

(2)evidences

Standard fluid catalytic cracking processes suffer from suboptimal ratios of high-value light olefins like propylene. Improving this selectivity ratio maximizes the economic yield of specific petrochemical feedstocks from heavy hydrocarbon streams.