Patent application number | Description | Published |
20120325482 | ALKALINE PERSULFATE FOR LOW-TEMPERATURE BREAKING OF MULTI-CHAIN POLYMER VISCOSIFIED FLUID - A persulfate compound activated by a strong base is used for low-temperature breaking of fluids viscosified with a multi-chain polysaccharide. The breaker system can be used in an oilfield or pipeline application where a multi-chain polysaccharide may be used in a fluid. It is particularly useful at low temperatures of less than 100° F. Optionally, the water can be a brine. | 12-27-2012 |
20130098611 | ALKALINE PERSULFATE FOR LOW-TEMPERATURE BREAKING OF POLYMER VISCOSIFIED FLUID - A persulfate compound activated by a strong base is used for low-temperature breaking of fluids viscosified with one or more water-soluble synthetic polymers, wherein the water-soluble synthetic polymers are selected from the group consisting of polyacrylamides, copolymers of polyacrylamide, derivatives of polyacrylamide or of copolymers of polyacrylamide, and any combination thereof. The breaker system can be used in an oilfield or pipeline application where such a synthetic polymer, a multi-chain polysaccharide, or combination thereof may be present in a fluid. It is particularly useful at low temperatures of less than 100° F. | 04-25-2013 |
20130098618 | HYDROPHOBICALLY MODIFIED POLYMER FOR THERMALLY STABILIZING FRACTURING FLUIDS - A method for treating a zone of subterranean formation is provided. The method includes the steps of: (a) forming a treatment fluid including: (i) water; (ii) a viscosity-increasing agent selected from the group consisting of water-soluble polysaccharides, water-soluble derivatives thereof, and any combination of the foregoing; (iii) a crosslinker for the viscosity-increasing agent; (iv) a hydrophobically modified water-soluble polymer; wherein the viscosity-increasing agent is not a hydrophobically modified polymer; and (b) introducing the treatment fluid into a zone of a subterranean formation, wherein the zone has a design temperature of equal to or greater than 350° F. | 04-25-2013 |
20130133892 | BREAKING DIUTAN WITH OXALIC ACID AT 180F to 220F - A method of treating a portion of a well of a well is provided. The method includes the step of forming a treatment fluid comprising: (i) a continuous aqueous phase; (ii) a viscosity-increasing agent selected from the group consisting of diutan, clarified diutan, water-soluble derivative of diutan, and any combination thereof, wherein the viscosity-increasing agent is dissolved in the aqueous phase; and (iii) a breaker comprising oxalic acid, wherein the oxalic acid is dissolved in the aqueous phase. The viscosity of the treatment fluid breaks to less than 3.0 cP in less than 72 hours when in a temperature range of 180° F. (82.2° C.) to 220° F. (104.4° C.). The method also includes the steps of introducing the treatment fluid into the portion of the well and flowing back from the portion of the well. | 05-30-2013 |
20130255944 | HYDRATED SHEET SILICATE MINERALS FOR REDUCING PERMEABILITY IN A WELL - A method of treating a treatment zone in a well is provided. The method includes the step of introducing into the treatment zone: (a) a hydrated sheet silicate mineral; and (b) a chemical activator for expanding the hydrated sheet silicate mineral. According to an embodiment, a method of treating a treatment zone in a well, where the method includes the steps of, in any order: (a) introducing into the treatment zone a first treatment fluid, wherein the first treatment fluid includes: (i) a hydrated sheet silicate mineral; and (ii) water; and (b) introducing into the zone a second treatment fluid including a chemical activator for expanding the hydrated sheet silicate mineral in the treatment zone. | 10-03-2013 |
20140119984 | WITHANOLIDE CORROSION INHIBITOR FOR CARBON STEEL - Acidic fluids used in wells or pipelines cause corrosion of carbon steel. Methods for inhibiting corrosion include contacting carbon steel with a fluid having an aqueous acidic phase including a material selected from the group consisting of: a material of a plant in the Solanaceae family, an extract of a material of a plant in the Solanaceae family, a withanolide, a source of a withanolide, a withanolide derivative, a source of a withanolide derivative, and any combination thereof. The methods have wide application in various kinds of operations involved in the production or transportation of oil and gas, such as acid stimulation in a well or remedial treatment in a pipeline. | 05-01-2014 |
20140202685 | IN-SITU ACID STIMULATION OF CARBONATE FORMATIONS WITH ACID-PRODUCING MICROORGANISMS - Methods of treating a subterranean formation penetrated by a wellbore of a well, wherein the subterranean formation includes carbonate. The methods can include the following steps of: (1) optionally, fracturing the subterranean formation; (2) optionally, acidizing the subterranean formation with a Bronsted-Lowry acid; (3) treating the subterranean formation with an acid-producing microorganism, a nutrient for the microorganism, and, if needed, a suitable electron acceptor for respiration by the microorganism; (4) optionally, flushing the wellbore with a wash fluid to push the microorganism deeper into the subterranean formation and wash it away from the metal tubulars of the well; (5) preferably, shutting-in the well for a required incubation period for in-situ acid generation by the microorganism; and (6) preferably, after the shut-in, flowing back fluid from the subterranean formation into the wellbore. | 07-24-2014 |
20140342952 | METHOD OF TREATING A HIGH-TEMPERATURE WELL WITH A FLUID CONTAINING A VISCOSIFIER AND A STABILIZER PACKAGE - A treatment fluid for treating a portion of a high-temperature subterranean formation comprises: a base fluid, wherein the base fluid comprises water; a viscosifier, wherein the viscosifier is a polymer, and wherein the viscosifier is thermally stable up to a temperature of 325° F.; and a stabilizer package, wherein the stabilizer package: (A) comprises a first stabilizer and a second stabilizer, wherein the first stabilizer is an oxygen scavenger and the second stabilizer is a pH adjustor; and (B) is capable of increasing the thermal stability of the viscosifier to a temperature greater than 350° F., wherein the portion of the subterranean formation has a bottomhole temperature greater than 350° F. A method of treating a high-temperature subterranean formation comprises introducing the treatment fluid into the portion of the subterranean formation. | 11-20-2014 |