Asphaltenes : Chemical Transformation During Hy... Apr 2026
Hydroprocessing drives asphaltene conversion through two competing pathways: and hydrogenation .
Resistant to removal; it often concentrates in the asphaltene fraction during processing, sometimes leading to an overall increase in nitrogen content. Asphaltenes : chemical transformation during hy...
While the overall molecule may get smaller, its aromatic carbon ratio (fa) and degree of condensation typically increase. This occurs because the loss of aliphatic chains leaves behind more compact, aromatic cores. Heteroatom Removal: This occurs because the loss of aliphatic chains
Asphaltenes undergo dealkylation, where aliphatic side chains are removed. This reduces their average molecular weight and molecular size. Asphaltenes are the heaviest and most complex molecules
Asphaltenes are the heaviest and most complex molecules in petroleum, primarily responsible for operational challenges like catalyst deactivation and sediment formation during heavy oil upgrading. During hydroprocessing—a process involving hydrogen at high temperatures and pressures—these molecules undergo significant chemical transformations that determine the efficiency of oil refining and the stability of the final products. Primary Chemical Transformations
Highly reactive; average sulfur atoms per molecule can decrease by approximately 50%. Sulfur located in bridge bonds is easier to remove than sulfur in aromatic rings.
