Class / Patent application number | Description | Number of patent applications / Date published |
366348000 | METHOD | 11 |
20110116342 | METHOD FOR SCALING MIXING OPERATIONS - A method for determining mixing time for a variety of vessels is disclosed. This method utilizes information about the configuration, such as vessel diameter, impeller diameter and speed, fluid density and viscosity, and fluid height to determine the appropriate mixing time. In another embodiment, the parameters used to create small batches of material can be used to scale up to larger vessel sizes. | 05-19-2011 |
20110170371 | CONTAINER - The present invention is directed toward a novel container system that is designed to hold and store liquids, such as for example, paints, stains, and various other coatings. The container system generally includes a base member, a shelf that is contained within the base member, and a lid. The shelf is provided with the base member and is designed to accept an application device, such as for example a paint roller. A lid is also provided with the container so that a fluid may be provided and stored as part of an all-inclusive delivery system. | 07-14-2011 |
20110182135 | Enhanced Slurrification Method - A method of slurrifying oil contaminated materials by introducing a microemulsion or microemulsion-forming surfactant(s) to the material and subjecting the mixture to suitable shear or mixing forces to suitably blend such mixtures. The method may be applied directly to wastes such as waste drill mud cuttings and muds, emulsions, sludges, or soil substrates contaminated with water and/or oil drilling fluids in order to both reduce the viscosity and improve the lubricity, wetting, and flow properties of the substrate. | 07-28-2011 |
20130155804 | DEVICE FOR FROTHING A LIQUID | 06-20-2013 |
20130208561 | INLINE INFUSION DEVICE AND METHOD FOR INTRODUCTION OF A GAS INTO A FLOWING MEDIA - The present invention comprises a method and system for the infusion of a gas into a liquid. The gas is passed through a container with ceramic filtering material of a specific pore size after which the gas enters the flow stream of the liquid. Alternatively, the gas is pressurized in the container and infused into the flow stream of the liquid media. | 08-15-2013 |
20130336085 | Method and Apparatus for Mixing Drinks - An improved mixing bottle comprised of at least two chambers, a top chamber and a bottom chamber. Said chambers may be separated from one another, on the outside, by a freshness seal and, on the inside, by a permeable membrane. The top chamber interior will contain a wide mouth funnel with a wide end and a narrow end. While the freshness seal is still in tact, the narrower end of the funnel may point towards the bottom chamber and be situated somewhere just above the permeable membrane. | 12-19-2013 |
20140104977 | METHOD AND APPARATUS FOR INDIRECT MAGNETIC TREATMENT OF FLUIDS AND GASES - There is provided a method and apparatus for indirect magnetic treatment of fluids/gases, where a magnetic or electromagnetic field having a certain dimension, geometry and flux density is, in a first step, applied to a working fluid/gas to obtain the directly magnetized fluid/gas. Then the directly magnetized fluid/gas is used in a second step as a magnetizer or a magnetic treating agent for magnetizing indirectly the normal non-magnetized fluid/gas by mixing the directly magnetized fluid/gas and normal non-magnetized fluid/gas in accordance with a predetermined mixing ratio and mixing method between the directly magnetized fluid/gas and normal non-magnetized working fluid/gas. Afterwards, the resultant mixed or indirectly-magnetized fluid/gas is used in the proper application directly or stored in a storage tank for later use. Possible applications for the invention include, but not limited to, all previous applications of the direct magnetic treatment of fluid/gas such as water treatment, hydrocarbon fuel treatment. | 04-17-2014 |
20140140166 | Dual Component Mixing Bag - A container has elastomeric sheets defining a periphery with four sides. A seal extends about the periphery defining a closed chamber. A separator extends across the closed chamber dividing the closed chamber into a first compartment and a second compartment. The separator includes a rod for wrapping the sheets around the rod to define a dividing portion. A retainer clip presents an inner wall clamped about the dividing portion providing an impermeable closure between the sheets. The sheets define at least two aligned and spaced pockets separated by a gap whereby removing the rod from the retainer clip and inserting the rod into the pockets extending across the gap and clamping the retainer clip over the rod to define a handle. The present invention also includes a method for mixing a first component and a second component in the container and releasing the components. | 05-22-2014 |
20140247689 | Method and Apparatus to Produce Hydrogen-Rich Materials - Hydrogen molecule (H | 09-04-2014 |
20140334252 | MULTI-CHAMBER MIXING CONTAINER - The invention is related to a multi-chamber mixing container comprising an introversion container, a withdrawal container and various optionally present intermediate containers, furthermore a device for the reception and use of the multi-chamber mixing container and methods for mixing liquids or liquids and solids under aseptic conditions in the multi-chamber mixing container. | 11-13-2014 |
20160158589 | FIREFIGHTING FOAM GENERATOR - Embodiments described herein relate to firefighting foam generators. The generators may include a receptacle for receiving liquid. A gas supply may be provided for supplying gas into the liquid to create foam. At least one turbulence creator may be provided for creating turbulence in the receptacle. Advantageously, the firefighting foam generators create turbulence to assist with mixing the gas and liquid when creating the foam. The embodiments provide for improved mixing and evenness of foam, without foam flooding, when compared with known foam generators. The embodiments are also simple to manufacture when compared with known foam generators. | 06-09-2016 |