Abstract: An apparatus may comprise: a vessel, a fire-suppression composition disposed within the vessel, wherein the fire-suppression composition comprises a fibrous clay mineral and a propellant gas; and a valve disposed on an outlet of the vessel wherein the valve has at least an open position with a flow path between an interior of the vessel and an exterior of the vessel and a closed position wherein the flow path is blocked.

Abstract: Methods of circulating a drilling fluid while drilling a shallow wellbore that is highly deviated or horizontal. The drilling fluid comprises an aqueous base fluid, iota carrageenan, partially hydrolyzed polyacrylamide, and a divalent cation selected from the group consisting of a calcium ion, a magnesium ion, and any combination thereof. The shallow wellbore that is highly deviated or horizontal is no greater than about 610 meters below an earth surface, and in a range of about 55° to about 125° from a vertical inclination.

Abstract: Polymer-based drilling fluids may be used as an alternative to drilling fluids containing bentonite or other clay materials, although filter cake formation with polymer-based drilling fluids can often be inadequate. Drilling methods can comprise: providing a drilling fluid comprising a carrier fluid, a non-crosslinked hydroxyalkylcellulose polymer, and a plurality of non-biodegradable particulates; drilling a borehole in the presence of the drilling fluid; and forming a filter cake within the borehole, the filter cake comprising the non-crosslinked hydroxyalkylcellulose polymer and the non-biodegradable particulates.

Abstract: The permeability of barrier layers formed from sodium bentonite clay may be significantly and unpredictably impacted upon contacting various ionic substances. Modifying agents may be admixed with sodium bentonite clay to lessen the impacts resulting from its contact with an ionic substance. Suitable modifying agents may comprise an anionic substance selected from the group consisting of a diutan, a polymer containing a 2-acrylamido-2-methylpropanesulfonic acid monomer, any salt thereof, and any combination thereof. Methods for forming a barrier layer may comprise: providing a barrier material comprising sodium bentonite clay and a modifying agent admixed with the sodium bentonite clay, the modifying agent comprising an anionic substance selected from the group consisting of a diutan, a polymer containing a 2-acrylamido-2-methylpropanesulfonic acid monomer, any salt thereof, and any combination thereof; and forming a barrier layer comprising the barrier material.

Abstract: A wellbore treatment fluid comprising: a base fluid; and a fluid loss additive package, the fluid loss additive package comprising: a water-swellable, superabsorbent polymer; a derivatized cellulose; and non-swellable particles that are insoluble in the base fluid. A method of drilling a wellbore into a subterranean formation comprising: providing the drilling fluid; and forming the wellbore using a drill bit and the drilling fluid.

Abstract: The presence of unmitigated metal ions in a drilling fluid can prevent acceptable rheological and fluid loss control performance from being realized during a drilling operation. Softening of a hard water source containing alkaline earth metal ions may allow the resultant treated water source to be used in formulating a drilling fluid with acceptable properties. Not all softening agents perform equivalently in this regard, and some softening agents may not be readily available. Methods for formulating a drilling fluid may comprise: providing a hard water source comprising one or more metal ions; introducing an alkali metal silicate into the hard water source to form a treated water source; and after forming the treated water source, adding a viscosifying agent to the treated water source to form a drilling fluid. The methods may further comprise drilling a borehole with the drilling fluid.

Abstract: Polymer-based drilling fluids may be used as an alternative to drilling fluids containing bentonite or other clay materials, although filter cake formation can often be inadequate when using polymer-based drilling fluids. As a result, drilling methods employing polymer-based drilling fluids may sometimes experience unacceptable fluid loss performance within a borehole. Drilling methods with enhanced fluid loss performance may comprise: providing a drilling fluid comprising a carrier fluid, a viscosity-enhancing polymer, and a plurality of non-biodegradable particulates, the non-biodegradable particulates comprising at least silica particulates; drilling a borehole in the presence of the drilling fluid; and forming a filter cake within the borehole, the filter cake comprising the non-biodegradable particulates.

Abstract: Methods of circulating a drilling fluid while drilling a shallow wellbore that is highly deviated or horizontal. The drilling fluid comprises an aqueous base fluid, iota carrageenan, partially hydrolyzed polyacrylamide, and a divalent cation selected from the group consisting of a calcium ion, a magnesium ion, and any combination thereof. The shallow wellbore that is highly deviated or horizontal is no greater than about 610 meters below an earth surface, and in a range of about 55° to about 125° from a vertical inclination.

Abstract: A wellbore treatment fluid comprising: a base fluid; and a fluid loss additive package, the fluid loss additive package comprising: a water-swellable, superabsorbent polymer; a derivatized cellulose; and non-swellable particles that are insoluble in the base fluid. A method of drilling a wellbore into a subterranean formation comprising: providing the drilling fluid; and forming the wellbore using a drill bit and the drilling fluid.

Abstract: Polymer-based drilling fluids may be used as an alternative to drilling fluids containing bentonite or other clay materials, although filter cake formation with polymer-based drilling fluids can often be inadequate. Drilling methods can comprise: providing a drilling fluid comprising a carrier fluid, a non-crosslinked hydroxyalkylcellulose polymer, and a plurality of non-biodegradable particulates; drilling a borehole in the presence of the drilling fluid; and forming a filter cake within the borehole, the filter cake comprising the non-crosslinked hydroxyalkylcellulose polymer and the non-biodegradable particulates.

Abstract: Dry drilling fluid additives may include a dry mixture that comprises a clay stabilizing agent at about 76% to about 93% by weight of the dry mixture, a dispersant at about 3% to about 6% by weight of the dry mixture, and a surfactant at about 4% to about 18% by weight of the dry mixture. Such dry drilling fluid additives may be useful in methods and systems for drilling wellbore penetrating subterranean formations, especially deviated and highly-deviated wellbores.

Abstract: Dry drilling fluid additives may include a dry mixture that comprises a clay stabilizing agent at about 76% to about 93% by weight of the dry mixture, a dispersant at about 3% to about 6% by weight of the dry mixture, and a surfactant at about 4% to about 18% by weight of the dry mixture. Such dry drilling fluid additives may be useful in methods and systems for drilling wellbore penetrating subterranean formations, especially deviated and highly-deviated wellbores.

Abstract: Polymer-based drilling fluids may be used as an alternative to drilling fluids containing bentonite or other clay materials, although filter cake formation can often be inadequate when using polymer-based drilling fluids. As a result, drilling methods employing polymer-based drilling fluids may sometimes experience unacceptable fluid loss performance within a borehole. Drilling methods with enhanced fluid loss performance may comprise: providing a drilling fluid comprising a carrier fluid, a viscosity-enhancing polymer, and a plurality of non-biodegradable particulates, the non-biodegradable particulates comprising at least silica particulates; drilling a borehole in the presence of the drilling fluid; and forming a filter cake within the borehole, the filter cake comprising the non-biodegradable particulates.