Abstract
Considered a primary energy source, crude oil is essential for the production of industrial inputs. With the increase in investments in deepwater production systems, technological challenges emerge, especially in the exploitation of the Brazilian presalt, where the formation of hydrates and wax deposits can pose flow assurance risks. In addition to conditions that favor deposit formation, such as low seabed temperature, these fields also present a high gas/oil ratio and elevated pressuresfactors that can alter the kinetics and thermodynamics of the phenomenon. This study aims to experimentally characterize the influence of three different gases (CO(2), Natural Gas, N(2), and N(2) + n-hexane) at different pressuresup to 20.0 MPa gauge (MPag) on the first and second crystallization events of a dead crude oil sample from the Brazilian presalt. The experiments were conducted using HPμDSC high-pressure cells, with pressure increased by the slow and gradual injection of each gas under study. It was found that N(2) injection increases the WAT, while Natural Gas injection, in contrast, reduces the WAT. In the case of CO(2) injection, pressure intervals were observed in which WAT increases, and others in which it remains constant; this behavior was also observed for the crystallization temperature of the second event.