The present disclosure relates to biocide compositions, formulations and methods for using formulations. In particular the present disclosure relates to biocide compositions and their use in effecting biocidal activity in subterranean oil and gas wells being drilled, completed, worked over or produced.

A composite for controlling the release of a well treatment agent or for inhibiting or preventing the formation of contaminants into a fluid or a surface within a reservoir contains a well treatment agent adsorbed onto a water-insoluble or oil-insoluble adsorbent, the adsorbent having a surface area between from about 110 m.sup.2/g to about 700 m.sup.2/g. The composite may be also used to monitor the production of fluids from the reservoir or the flow of fluids in the reservoir.

In one embodiment, the present technology provides a surfactant composition comprising an imide compound in an optional solvent for use in a hydrocarbon base fluid to improve the emulsification of an acidizing agent in the hydrocarbon base fluid. In another embodiment, the present technology provides a method of employing an acidizing well-bore stimulation fluid containing the surfactant composition to stimulate a reservoir.

The embodiments described herein generally relate to methods and chemical compositions for use with wellbore treatment processes. In one embodiment, a composition is provided comprising a mineral acid and a retardation agent selected from the group of an amine containing compound, an amide containing compound, lignosulfonate, and combinations thereof.

A method and system treat contaminated water. In one embodiment, the method comprises treating contaminated water by introducing a methylmorpholine-N-oxide solution to a vessel. The vessel contains the contaminated water and iron oxide. The contaminated water comprises contaminants. In addition, the methylmorpholine-N-oxide solution comprises methylmorpholine-N-oxide and water. The method further comprises contacting the methylmorpholine-N-oxide solution with the contaminated water. In addition, the method comprises treating the contaminated water by allowing the methylmorpholine-N-oxide to react with the contaminants in the presence of the iron oxide.

A method of hydraulic fracturing may comprise mixing at least one liquid sand mixture with a fluid to produce a fracturing fluid; and conveying the fracturing fluid to two or more wellbores simultaneously, wherein the wellbores penetrate a subterranean formation.

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.

A method of removing a sulfide-containing scale from a wellbore, pipe, or other metal-containing surface associated with an oil or gas well is provided. The method includes contacting the sulfide-containing scale with a de-scaler solution including an aqueous solvent, an acid and a hydrogen sulfide scavenger. The hydrogen sulfide scavenger includes particles of a manganese oxide supported on a porous support. The particles are suspended in the aqueous solvent. The method includes reacting the acid with the sulfide-containing scale to produce hydrogen sulfide. The method further includes reacting the hydrogen sulfide in the wellbore with the manganese oxide to form a manganese sulfide.

Compositions inhibit corrosion in various commercial settings, such as in a refinery and/or in an oil and gas application. The compositions include at least one fatty acid and at least two amphipathic molecules selected from the group consisting of dodecenyl succinic acid, dimer fatty acid and benzalkonium chloride.

A treatment fluid for treating iron sulfide and hydrogen sulfide can include a first additive of acrolein that provides a dual function to dissolve iron compounds and scavenge hydrogen sulfide. After dissolution of the iron compounds, free iron is formed, which can react to form iron oxide. The iron oxide can reprecipitate out of the solution. The treatment fluid can also include a second additive that is a chelating agent to chelate the free iron formed. The chelating agent can be a sugar acid. The two additives are compatible with each other and provide a synergistic effect with improved performance compared to the use of either additive alone.