Knust
Denis Knust, Schwerin DE
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20140291326 | METHOD FOR APPLYING A PROTECTIVE LAYER FOR PROTECTING AGAINST IMPACT STRESSES - A method for applying a protective layer to protect against an impact stress includes mixing a sealing alloy in a powder form with a binder and water to form a pasty compound, applying the pasty compound on a surface to be protected, drying the applied pasty compound, and heating the dried applied pasty compound to a temperature of at least 800° C. | 10-02-2014 |
Henner Knust, Rhenfelden DE
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20090186920 | SULFONAMIDES AS OREXIN ANTAGONISTS - The present invention is concerned with novel sulfonamides of formula | 07-23-2009 |
Kyle N. Knust, Austin, TX US
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20140183046 | MEMBRANELESS SEAWATER DESALINATION - Disclosed are microfluidic devices and systems for the desalination of water. The devices and systems can include an electrode configured to generate an electric field gradient in proximity to an intersection formed by the divergence of two microfluidic channels from an inlet channel. Under an applied bias and in the presence of a pressure driven flow of saltwater, the electric field gradient can preferentially direct ions in saltwater into one of the diverging microfluidic channels, while desalted water flows into second diverging channel. Also provided are methods of using the devices and systems described herein to decrease the salinity of water. | 07-03-2014 |
Larry J. Knust, Easley, SC US
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20120028519 | PADDLE WITH SELECTABLE BLADE ANGLE - A paddle for use in watersports is provided with shaft halves and blades at the end of each shaft half with a selectable offset angle between the blades. A joint connecting the shaft halves may include an interlocking coupling and a biasing member. The interlocking coupling maintains, in a use configuration, the offset angle of the blades, and allows, in a selection configuration, a change in the offset angle of the blades. The biasing member typically holds the interlocking coupling in the use configuration, and the shaft halves may be moved axially apart for the selection configuration. All mechanisms for switching the interlocking coupling between the use configuration and the selection configuration are normally located within the shaft halves. A retaining clip may be coupled between the first and second shaft halves to allow the selection configuration while preventing disassembly of the first and second shaft halves. A disassembly control can be provided independently of the angle selection for disassembly of the shaft halves. | 02-02-2012 |
Michael Knust, Isenbiittel DE
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20110042496 | SYSTEM AND METHOD FOR TREATING SHREDDER RESIDUES AND USE OF A GRANULATE FRACTION THUS PRODUCED - In a method and a system for sorting shredder residues of metal-containing wastes, in particular from vehicle body shells, shredder residues are separated into a shredder light fraction and a non-ferromagnetic fraction. The method and system provide for a raw-granulate fraction being produced during the sorting of the shredder light fraction and the shredder heavy fraction in preliminary processes and a main process, by separating out at least one ferromagnetic fraction, a nonferrous-metal fraction, a fibre fraction, and a sand fraction, and the raw-granulate fraction being split up in a refining process. | 02-24-2011 |
Michael Knust, Isenbuettel DE
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20080251616 | SYSTEM AND METHOD FOR TREATING SHREDDER RESIDUES - In a method for sorting shredder residues of metal-containing wastes, e.g., vehicle bodies, the shredder residues are separated into a shredder light fraction and a non-ferromagnetic fraction (shredder heavy fraction). A system is arranged for sorting shredder residues of metal-containing wastes, e.g., vehicle bodies. At least parts of the primary material streams produced during the sorting of the shredder light fraction and the shredder heavy fraction in preliminary processes are fed to a common, main process for final processing, at least a ferromagnetic fraction, a fraction containing non-ferromagnetic metals, a granulate fraction, a fiber fraction, and a sand fraction being produced as end products. | 10-16-2008 |
20110042495 | METHOD AND EQUIPMENT FOR CONDITIONING A HEAVY FRACTION HIGH IN PLASTICS - In a method and equipment for conditioning a heavy fraction high in plastics, which is obtained by conditioning low-metal scrap high in plastics, which originate at least in part from shredder processes of scrap vehicles, the method includes: isolating metal parts from the heavy fraction high in plastics; reducing the size of the metal-reduced heavy fraction high in plastics that remains after the isolation of the metal parts; splitting up of the metal-reduced heavy fraction high in plastics, that remains after the isolation of the metal parts, into fractions high in plastics having different grain sizes; conditioning the separated fractions high in plastics at least partially in separate processes. The equipment includes appropriate devices for carrying out the foregoing processes. A highly pure granulate fraction may be obtained, which may be fed to material utilization. | 02-24-2011 |
20110046248 | METHOD AND EQUIPMENT FOR CONDITIONING LOW-METAL PLASTIC SCRAP - In a method and equipment for conditioning low-metal scrap high in plastics, which contains at least partially scrap high in plastics from shredder processes, especially of scrap vehicles, the method includes: splitting up ferromagnetic components from the scrap that is high in plastics; separating a first raw sand fraction from the scrap high in plastics that has been reduced in metals; reducing in size the fraction high in plastics that remains after the isolation of the first raw sand fraction; separating a second raw sand fraction after reducing in size the remaining fraction high in plastics; and splitting up the remaining fraction, that is high in plastics, into a light fraction and a heavy fraction. | 02-24-2011 |
20120175445 | Method and Equipment for Conditioning a Heavy Fraction High in Plastics - In a method and equipment for conditioning a heavy fraction high in plastics, which is obtained by conditioning low-metal scrap high in plastics, which originate at least in part from shredder processes of scrap vehicles, the method includes: isolating metal parts from the heavy fraction high in plastics; reducing the size of the metal-reduced heavy fraction high in plastics that remains after the isolation of the metal parts; splitting up of the metal-reduced heavy fraction high in plastics, that remains after the isolation of the metal parts, into fractions high in plastics having different grain sizes; conditioning the separated fractions high in plastics at least partially in separate processes. The equipment includes appropriate devices for carrying out the foregoing processes. A highly pure granulate fraction may be obtained, which may be fed to material utilization. | 07-12-2012 |
Randy L. Knust, The Woodlands, TX US
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20090121883 | Card and Chip Detection System for a Gaming Table - A card and detection system comprises a group of light sensors located under and covered over by a table felt. The light sensors are directed vertically upward to detect changes in light intensity on the top surfaces of the sensors through the felt. This allows flexibility of placement of the sensors and avoids daily maintenance issues. The sensors read through fabric to detect when objects such as chips or cards are placed on top of the felt. With this system, the procedure of detecting chips or cards is imperceptible to the customers or dealers. | 05-14-2009 |