The subject invention provides multi-functional biochemical compositions, as well as their use in enhancing oil recovery from an oil-bearing subterranean formation. Advantageously, the compositions and methods of the subject invention are operationally-friendly, cost-effective, and environmentally-friendly. More specifically, in preferred embodiments, the subject invention provides a multi-functional composition for enhanced oil recovery (EOR) comprising one or more surfactants, one or more chelating agents, and one or more solvents.

The subject invention provides multi-functional biochemical compositions, as well as their use in enhancing oil recovery from an oil-bearing subterranean formation. Advantageously, the compositions and methods of the subject invention are operationally-friendly, cost-effective, and environmentally-friendly. More specifically, in preferred embodiments, the subject invention provides a multi-functional composition for enhanced oil recovery (EOR) comprising one or more surfactants, one or more chelating agents, and one or more solvents.

Methods for treating paraffins, iron sulfide, hydrogen sulfide, and/or bacteria in subterranean operations and operations involving the production and/or transportation of oil and gas are provided. In one or more embodiments, the methods include contacting a surface comprising at least one paraffin deposit and at least one iron sulfide deposit with a treatment fluid comprising a paraffin dissolver and acrolein; and allowing the treatment fluid to at least partially dissolve or degrade the paraffin deposit and the iron sulfide deposit.

Methods for treating paraffins, iron sulfide, hydrogen sulfide, and/or bacteria in subterranean operations and operations involving the production and/or transportation of oil and gas are provided. In one or more embodiments, the methods include contacting a surface comprising at least one paraffin deposit and at least one iron sulfide deposit with a treatment fluid comprising a paraffin dissolver and acrolein; and allowing the treatment fluid to at least partially dissolve or degrade the paraffin deposit and the iron sulfide deposit.

In an embodiment, a hydrocarbon recovery material includes an organic acid and a water material, the organic acid including a naphthenic acid, L-proline, or combinations thereof. In another embodiment, an oil recovery method includes injecting a treatment fluid into a reservoir under reservoir conditions, the reservoir containing hydrocarbons, and the treatment fluid includes an organic acid and a water material. In another embodiment, an oil recovery method includes injecting a treatment fluid into a reservoir containing hydrocarbons, the treatment fluid comprising an organic acid in one or more of an oil-in-water emulsion, a resin dispersion, or a polymer capsule.

The subject invention provides compositions and methods for improving oil and/or gas production efficiency. In some embodiments, the compositions and methods utilize microbial surfactants, namely, glycolipids, to prevent the flocculation, precipitation and/or deposition of asphaltenes present in crude oil.

The subject invention provides compositions and methods for improving oil and/or gas production efficiency. In some embodiments, the compositions and methods utilize microbial surfactants, namely, glycolipids, to prevent the flocculation, precipitation and/or deposition of asphaltenes present in crude oil.

The present invention relates to a method for oil and gas well remediation by the creation and use of a bio-derived nano scale complex mixtures, comprising bio-derived solvents and/or surfactants that allows the breaking, dissolving, dispersing and caging of obstructions in oil and gas wells. The charge present on the bio derived nanoscale complex is based on the pH of the well. The invention further reduces the well obstructions to a free-flowing fluid and then encapsulates them in an electrochemical, spherical, globe of protection. The method efficiently removes obstructions from the well to be treated.

The present invention relates to a method for oil and gas well remediation by the creation and use of a bio-derived nano scale complex mixtures, comprising bio-derived solvents and/or surfactants that allows the breaking, dissolving, dispersing and caging of obstructions in oil and gas wells. The charge present on the bio derived nanoscale complex is based on the pH of the well. The invention further reduces the well obstructions to a free-flowing fluid and then encapsulates them in an electrochemical, spherical, globe of protection. The method efficiently removes obstructions from the well to be treated.

Novel microemulsion formulations comprising a surfactant or combination of surfactants are disclosed for improved crude oil cleanup or recovery from subsurface geological formations, especially those containing carbonate cements.