The present invention provides a method for restricting a fluid flow path in subterranean geological formations to facilitate the removal of hydrocarbons from the subterranean geological formation during enhanced oil recovery techniques. The method includes the steps of injecting a first water volume into the fluid flow path thereby displacing fluids present in the fluid flow path. The next step is injecting an alkaline volume into the fluid flow path thereby displacing the first water volume ahead of the alkaline volume. The injections create a first water and alkaline mixed continuum between the first water volume and the hydroxide volume wherein the relative concentrations of water and hydroxide vary along a length of the first water and hydroxide mixed continuum wherein the relative concentrations of water and alkaline are conducive to the formation of scale upon the surfaces of the subterranean geological formation.
Fluid profile in an oil field waterflood operation is controlled after water breakthrough occurs by injecting a hydrate forming hydrocarbon gas into the highly permeable breakthrough zone. The injected gas on contact with water in the breakthrough zone forms a solid gas hydrate to restrict fluid flow in the breakthrough zone.
A foam drive method for enhancing oil recovery efficiently is initiated by injecting into a subterranean oil-bearing formation, an aqueous polymer solution as a preceding-slug. This is followed by periodically injecting simultaneously or alternately a non-condensible gas and an aqueous solution of foaming composition to form a combined foam under ground or periodically injecting the combined foam formed beforehand by the gas and said aqueous solution above ground. The aqueous solution of foaming composition comprises an alkali, a surfactant and a polymer. Thereafter, an aqueous polymer solution used as a protecting-slug is injected into the formation; followed by continuing water-flooding.
