Gelation performance of PAM/PEI polymer gel with addition of retarder in high-salinity conditions
Document Type
Article
Publication Date
1-1-2022
Abstract
The complex nature of heterogeneous reservoirs requires the development of effective and stable polymer gel to reduce excessive water production. Organically cross-linked polymer gel is becoming popular and an effective means of conformance control. The key objective of gel treatment is to reduce the flow of water through high-permeability channels and divert the subsequent injection water to the productive zones of the reservoir. This article briefly studied the effects of salinity and NH4Cl as retarders on the performance of the PAM/PEI polymer gel, especially the effects on viscosity, gelation time, gel strength, and gel morphology. The experimental results show that the effectiveness of NH4Cl to extend the gelation time of polymer gel is significantly reduced in high salinity. With the increase of salinity, the gel network greatly loses its gel strength as well. This indicates that a weak gel structure is formed and becomes vulnerable as observed from the surface morphology. It can be observed that PAM/PEI gel with NH4Cl in high salinity has a certain granular structure in some regions. These findings provide a better understanding and give additional insight as current studies have not significantly described the performance of PAM/PEI polymer gel with NH4Cl as a retarder that was prepared in high salinity for high-temperature water control application.
Keywords
Polymer gel, Water control, Gelation time, Gel strength, Gel morphology
Divisions
sch_che
Funders
Universiti Malaya [Grant No: IF062-2019 & FP050-2019A],Universiti Teknologi PETRONAS [Grant No: GR&TUTP RG2020-0483],SLAI Fellowship Scheme from the Ministry of Education Malaysia
Publication Title
Journal of Sol-Gel Science and Technology
Volume
101
Issue
1
Publisher
Springer
Publisher Location
ONE NEW YORK PLAZA, SUITE 4600, NEW YORK, NY, UNITED STATES