Methods and systems of treating a well are provided. A method comprises providing a packer fluid comprising a fluorous oil; and introducing the packer fluid into a wellbore. The method further comprises introducing the packer fluid into the wellbore may further comprise introducing the packer fluid into a volume above a packer and inside a casing.

Methods and systems of treating a well are provided. A method comprises providing a packer fluid comprising a fluorous oil; and introducing the packer fluid into a wellbore. The method further comprises introducing the packer fluid into the wellbore may further comprise introducing the packer fluid into a volume above a packer and inside a casing.

The invention relates to a hydrocarbon recovery composition comprising one or more internal olefin sulfonates and/or one or more alkoxylated alcohols and/or alkoxylated alcohol derivatives and a method of recovering hydrocarbons from a hydrocarbon formation comprising feeding a hydrocarbon recovery composition into the formation, allowing the hydrocarbon recovery composition to contact the formation for a period of time, and withdrawing a mixture of the hydrocarbon recovery composition and hydrocarbons from the formation.

The invention relates to a hydrocarbon recovery composition comprising one or more internal olefin sulfonates and/or one or more alkoxylated alcohols and/or alkoxylated alcohol derivatives and a method of recovering hydrocarbons from a hydrocarbon formation comprising feeding a hydrocarbon recovery composition into the formation, allowing the hydrocarbon recovery composition to contact the formation for a period of time, and withdrawing a mixture of the hydrocarbon recovery composition and hydrocarbons from the formation.

Disclosed herein is a nanoparticle modified fluid that includes nanoparticles that are surface modified to increase a viscosity of the nanoparticle modified fluid and that have at least one dimension that is less than or equal to about 50 nanometers; nanoparticles that are surface modified to increase a viscosity of the nanoparticle modified fluid and that have at least one dimension that is less than or equal to about 70 nanometers; and a liquid carrier; wherein the nanoparticle modified fluid exhibits a viscosity above that of a comparative nanoparticle modified fluid that contains the same nanoparticles but whose surfaces are not modified, when both nanoparticle modified fluids are tested at the same shear rate and temperature.

Disclosed herein is a nanoparticle modified fluid that includes nanoparticles that are surface modified to increase a viscosity of the nanoparticle modified fluid and that have at least one dimension that is less than or equal to about 50 nanometers; nanoparticles that are surface modified to increase a viscosity of the nanoparticle modified fluid and that have at least one dimension that is less than or equal to about 70 nanometers; and a liquid carrier; wherein the nanoparticle modified fluid exhibits a viscosity above that of a comparative nanoparticle modified fluid that contains the same nanoparticles but whose surfaces are not modified, when both nanoparticle modified fluids are tested at the same shear rate and temperature.

A composition for reducing the viscosity of heavy oils, comprising a mixture of terpene and petroleum distillate wherein the mixture has a flash point of at least 95° C.

Methods and systems for the treatment of wells are disclosed. A method for treating a well comprises providing a treatment fluid comprising calcium-aluminate cement, water, and a cement set retarder; and introducing the treatment fluid into a wellbore. A system for treating a well comprises a treatment fluid comprising calcium-aluminate cement, water, and a cement set retarder; a vessel to contain the treatment fluid; a pumping system coupled to the vessel to pump the treatment fluid; and a conduit coupled to the pumping system.

Methods and systems for the treatment of wells are disclosed. A method for treating a well comprises providing a treatment fluid comprising calcium-aluminate cement, water, and a cement set retarder; and introducing the treatment fluid into a wellbore. A system for treating a well comprises a treatment fluid comprising calcium-aluminate cement, water, and a cement set retarder; a vessel to contain the treatment fluid; a pumping system coupled to the vessel to pump the treatment fluid; and a conduit coupled to the pumping system.

An oxidative breaker system for use in reducing the viscosity of a polysaccharide-based or derivatized polysaccharide-based suspension includes a silicone carrier fluid, an oxidizer, and a suspension aid. The suspension aid is preferably fumed silica. The oxidizer may be selected from the group consisting of alkali metal peroxide, transition metal peroxide, persulfate compound, bromide compound, and bromate compound. In highly preferred embodiments, the oxidizer is magnesium peroxide or calcium peroxide. Alternative carrier fluids and suspension agents are also included in the art. Also disclosed is a method for breaking a polysaccharide-based suspension with the inventive oxidative breaker system.