Adaptability Study of Hot Water Chemical Flooding in Offshore Heavy Oilfields

Abstract: As a new heavy oil development technology, hot water chemistry flooding has great potential in offshore heavy oil fields development. In this paper, the adaptability of hot water chemical flooding was studied based on the typical model of offshore heavy oil fields. The main controlling factors affecting the hot water chemical flooding were analyzed and evaluated by single factor analysis. The technical boundary was established for offshore heavy oil fields. In addition, the hot water chemical flooding scheme w… Show more

“…There is also a viscosity reducing chemical flooding, which increases water viscosity while reducing oil viscosity, achieving the goal of improving mobility ratio. On the one hand, the principle of thermal viscosity reduction is used to add chemical agents into hot water to achieve the goal of reducing the viscosity of crude oil through hot water chemical flooding. , This technology has the advantages of high sweep efficiency and low heat loss, but like thermal recovery, it is limited by factors such as well spacing. On the other hand, amphiphilic polymers that utilize chemical viscosity reduction typically introduce amphiphilic groups onto the polyacrylamide backbone. , The introduction of hydrophobic groups can enable polymer molecules to form supramolecular aggregates through hydrophobic association, resulting in stronger viscosity capacity and shear resistance in solutions compared to general water-soluble polymers.…”

Hyperbranched Copolymer as a Viscosity Reducer for Offshore Heavy Oil: From Optimization to Application

“…There is also a viscosity reducing chemical flooding, which increases water viscosity while reducing oil viscosity, achieving the goal of improving mobility ratio. On the one hand, the principle of thermal viscosity reduction is used to add chemical agents into hot water to achieve the goal of reducing the viscosity of crude oil through hot water chemical flooding. , This technology has the advantages of high sweep efficiency and low heat loss, but like thermal recovery, it is limited by factors such as well spacing. On the other hand, amphiphilic polymers that utilize chemical viscosity reduction typically introduce amphiphilic groups onto the polyacrylamide backbone. , The introduction of hydrophobic groups can enable polymer molecules to form supramolecular aggregates through hydrophobic association, resulting in stronger viscosity capacity and shear resistance in solutions compared to general water-soluble polymers.…”

Hyperbranched Copolymer as a Viscosity Reducer for Offshore Heavy Oil: From Optimization to Application

Core flooding experimental study on enhanced oil recovery of heavy oil reservoirs with high water cut by sub- and supercritical water

Investigating the effect of salt concentration on oil recovery during guar gum polymer flooding: A simulation study