جستجوی مقالات مرتبط با کلیدواژه "آشام خودبه خودی" در نشریات گروه "مهندسی شیمی، نفت و پلیمر"

The process of injecting smart water into carbonate reservoirs has always faced many challenges. In this study, by examining one of the effective factors such as ionic compounds active in smart water, these ambiguities have been further investigated and analyzed. The reaction between three phases, oil, rock and saline, which leads to a change in wettability, requires the presence of ionic compounds active in smart water and active compounds in oil. The presence of these compounds in the desired concentrations is the driving force required to perform ion exchange reactions followed by a change in wettability. In fact, the optimal concentration of active ions leads to the formation of a stable water film and a change in the wettability of the rock. In this study, experiments measuring the contact angle and the spontaneous imbibition deferens process were performed on samples of limestone.  For this purpose, the cores with the same conditions are located in the vicinity of different compounds of active ions in smart water. In this regard, using the collected results, it is possible to interpret and study how to participate in the reaction and the effectiveness of the active compounds of smart water. It can also be concluded that cations in the presence of sulfate ions can have a positive performance at the minimum concentration in seawater and have acceptable efficiencies of about 41% in experimental conditions.

Spontaneous imbibition (SI) is an important production mechanism in fractured reservoirs. Efforts have been made to study the interaction between the matrix and fractures in a situation where saturated matrixes are surrounded by gas saturated fractures. Despite previous studies on the scaling groups introduced to characterize the imbibition process in oil reservoirs, gas reservoirs have been less considered. In this research, by studying the process of imbibition and the factors and conditions affecting this process, spontaneous test experiments were designed and implemented in specific conditions. By analyzing the data obtained from the experimental study and scaling the data, the spontaneous imbibition process in gas reservoirs has been investigated, and the capability of previously proposed scaling groups for scaling spontaneous imbibition data in gas systems, has been studied. Based on the results, it is necessary that SI and its affecting factors be more accurately studied in order to provide a more acquire scaling equation.