Class / Patent application number | Description | Number of patent applications / Date published |
523175000 | Liquid-solid drag reduction composition or process of preparing | 11 |
20080287568 | Polyolefin Drag Reducing Agents Produced by Non-Cryogenic Grinding - Fine particulate polymer drag reducing agent (DRA) in bi-modal or multi-modal particle size distributions may be produced simply and efficiently without cryogenic temperatures. The grinding or pulverizing of polymer, such as poly(alpha-olefin) suitable for reducing drag in flowing hydrocarbons may be achieved by the use of at least one liquid grinding aid and at least two grinding processors in series. The impellers of the grinders are of different openness so that granulated polymer fed to the first processor having a relatively more open impeller is ground to an intermediate size which is fed to the second processor having a relatively more closed impeller which grinds the polymer to a second, smaller size. A non-limiting example of a suitable liquid grinding aid includes a blend of propylene glycol, water and hexanol. Particulate DRA may be produced at a size of about 300 microns or less in only two passes. | 11-20-2008 |
20090209679 | CORE-SHELL FLOW IMPROVER - A flow improver comprising a plurality of core-shell particles that can be formed by emulsion polymerization. The core of the core-shell particles can include a drag reducing polymer, while the shell of the particles can include repeat units of a hydrophobic compound and an amphiphilic compound. The flow improver can demonstrate increased pumping stability over conventionally prepared latex flow improvers. | 08-20-2009 |
20110105642 | Drag reducing agent and method of use - The present invention relates to a drag reducing agent, composition, compound, product, process and method of use for use in petroleum pipelines and the like. A preferred embodiment of the present invention provides a cryogenically-ground polyalphaolefin polymer at 15-25 wt. % of the commercial product formulation. The bulking agents comprise ethylene bis-stearamide alone or in combination with other polyethylene and/or polypropylene polymers at 2.0-5.0 wt. % of the commercial product formulation. In addition, diisobutyl ketone 20-60 wt. % of the commercial product formulation and propylene carbonate 2.8-8.4 wt. % of the commercial product formulation are used. | 05-05-2011 |
20110319520 | Polyolefin Drag Reducing Agents Produced by Multiple Non-Cryogenic Grinding Stages - Fine particulate polymer drag reducing agents (DRAs) in bi-modal or multi-modal particle size distributions may be produced simply and efficiently without cryogenic temperatures. The grinding or pulverizing of polymer, e.g. non-porous poly(alpha-olefin) suitable for reducing drag in hydrocarbons may be achieved by the use of at least one liquid grinding aid and at least two grinding processors in series. The blades of the stators of the grinders are of different configuration so that granulated polymer fed to the first processor having relatively larger gaps between blades is ground to an intermediate size which is fed to the second processor having relatively smaller gaps between blades which grinds the polymer to a second, smaller size. A non-limiting example of a suitable liquid grinding aid includes a blend of propylene glycol, water and hexanol. Particulate DRA may be produced at a size of 300 microns or less in only two passes. | 12-29-2011 |
20120004343 | DRAG REDUCTION OF ASPHALTENIC CRUDE OILS - A method begins by obtaining a slipstream of a liquid. The slipstream of liquid is then mixed upstream of an injection pump with a latex comprising a drag reducing polymer to produce a drag reducing mixture. The drag reducing mixture is then injected into a liquid hydrocarbon to produce a treated liquid hydrocarbon. | 01-05-2012 |
20120004344 | DRAG REDUCTION OF ASPHALTENIC CRUDE OILS - A method of producing treated liquid hydrocarbons. The method begins by pressurizing a latex in a pressure vessel. This is followed by flowing the latex from the pressure vessel into a pipeline containing liquid hydrocarbons to produce treated liquid hydrocarbons. In this embodiment the latex comprises a drag reducing polymer. | 01-05-2012 |
20120035297 | REMEDIATION OF AGGLOMERATED FLOW IMPROVERS - The present embodiment can teach a method of feeding to a materials processor a mixture containing an agglomerated drag reducer. The mixture is then homogenized to produce a remediated drag reducer. The maximum particle size diameter of the agglomerated drag reducing polymer is at least 5% larger than the maximum particle diameter of the remediated drag reducer. | 02-09-2012 |
20120123019 | ADDITIVES FOR IMPROVING DRA INJECTION - A composition comprising a drag reducing latex formulation produced by emulsion polymerization to create solid particles dispersed in an aqueous medium and an additive. The use of the composition results in a decrease of film formation while injected through a pump head when compared to the drag reducing latex formulation injected through the pump head. | 05-17-2012 |
20120142814 | HYDROPHOBIC COATING COMPOSITIONS FOR DRAG REDUCTION - A hydrophobic coating has been made for use on interior pipe surfaces, exterior boat surfaces, and in many other applications, to reduce drag in fluid flow, thus providing an energy savings. The coating utilizes a blend of organic and/or inorganic polymers with hydrophobic nanoparticles of fumed silica and/or titania in a solvent. The coating solves the problem of poor resistance to UV light and/or abrasion found in previous coatings of similar nature. The coating of the present invention can be made to be translucent and nearly transparent whereas previous coatings of comparable hydrophobicity have all been white or opaque. The coating can be applied in a single application by an easy spraying method and the super hydrophobic property can be achieved by drying the film at room temperature for 5 to 10 minutes. A preferred coating has good resistance to UV light and some resistance to abrasion. The hydrophobic drag reduction coating composition forms an almost clear, translucent film or coating on painted material, plastic, metal, glass, ceramic, fiberglass or polymer substrate. A preferred coating composition comprising an effective amount of a treated fumed silica in a solvent resulting in a coated surface providing a contact angle of at least 165 degrees as compared to water having a contact angle of from 10 to 15 degrees on a noncoated surface. The composition imparts a degree of hydrophobicity to a surface so that the surface will have a tilt angle of sliding of less than 2 degrees as compared to water on a noncoated surface having a tilt angle of sliding of 90 degrees or higher. | 06-07-2012 |
20130203891 | AQUEOUS DRAG REDUCERS FOR ARCTIC CLIMATES - An aqueous drag reducer comprising a poly(alpha olefin), a winterizing agent and water. In this embodiment the winterizing agent comprises at least about 30 wt % of the aqueous drag reducer. Additionally, water comprises less than about 2.0 times the amount of winterizing agent. | 08-08-2013 |
20140206794 | Drag Reducing Compositions and Methods of Manufacture and Use - A drag reducing composition comprising a finely divided, solid polyolefin friction reducing agent formed from olefins containing from 2 to 30 carbon atoms, the polyolefin drag reducing agent suspended in a suspending medium and comprising 2,2,4-trimethyl-1,3-pentanediol monoisobutyrate containing up to 10% by weight of water. | 07-24-2014 |