Asphaltene-Prevention Work Flow Enhances Oil Production in High-Temperature Fractured Carbonate Reservoirs

Abstract: Summary Asphaltene precipitation is a common phenomenon in mature reservoirs that seriously impairs oil production. In high-temperature (HT) fractured carbonate reservoirs, the situation becomes critical when asphaltene precipitates at reservoir conditions, blocking the production channels and starting a cycle of production decline in which additional pressure drop increases the precipitation of the asphaltene fraction. Therefore, it is essential to make an early diagnosis of the problem and del… Show more

“…Asphaltenes are identified as polydisperse fractions, polar, brown to black, and considered as a solubility class insoluble in n -pentane or n -heptane but soluble in toluene, benzene, or xylene . Researchers know them as the most complex components of crude oil, having the heaviest molecular weight, no melting point, and no unique chemical structure. , They can be found as a dispersed fraction in the fluid phase, an agglomerated-colloidal-viscous liquid phase, or stacked chunks of solid particles. The asphaltene particles have no specific shape, and their complex-vary molecular structure is classified into the island and archipelago groups.…”

Phase Behavior and Reversibility Mechanisms of Asphaltene Precipitation for High-Pressure High-Temperature CO₂–Oil Systems

“…Asphaltenes are identified as polydisperse fractions, polar, brown to black, and considered as a solubility class insoluble in n -pentane or n -heptane but soluble in toluene, benzene, or xylene . Researchers know them as the most complex components of crude oil, having the heaviest molecular weight, no melting point, and no unique chemical structure. , They can be found as a dispersed fraction in the fluid phase, an agglomerated-colloidal-viscous liquid phase, or stacked chunks of solid particles. The asphaltene particles have no specific shape, and their complex-vary molecular structure is classified into the island and archipelago groups.…”

Phase Behavior and Reversibility Mechanisms of Asphaltene Precipitation for High-Pressure High-Temperature CO₂–Oil Systems

A macro and micro-investigation of nanotechnology for enhanced oil recovery: A comprehensive review

Inhibition of asphaltene flocculation in light crude oil: effect of pressure, temperature and inhibitor concentration