Beets
Joris Willem Beets, London GB
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20110177850 | MOBILE COMMUNICATION DEVICE HAVING OVERLAPPING FIRST AND SECOND BODY MEMBERS - A mobile communication device and linkage mechanism are provided to enable an opened position of the device which is less than the total length of the lid and base members. In the opened position, a portion of the lid member overlaps the base member. The linkage mechanism may actuate translational movement of the lid member as the device is moved between the closed and opened positions. | 07-21-2011 |
20120046076 | MOBILE PHONE - A mobile device includes a first housing, a second housing, and a hinge assembly rotatably coupling the first housing to the second housing and enabling movement of the device between an open configuration and a closed configuration. When the device is in the open configuration, the first housing is planar with the second housing. | 02-23-2012 |
Kevin A. Beets, Ladera Ranch, CA US
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20130067579 | System and Method for Statistical Analysis of Comparative Entropy - In accordance with one embodiment of the present disclosure, a method for determining the similarity between a first data set and a second data set is provided. The method includes performing an entropy analysis on the first and second data sets to produce a first entropy result, wherein the first data set comprises data representative of a first one or more computer files of known content and the second data set comprises data representative of a one or more computer files of unknown content; analyzing the first entropy result; and if the first entropy result is within a predetermined threshold, identifying the second data set as substantially related to the first data set. | 03-14-2013 |
Larry E. Beets, Knoxville, TN US
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20100020915 | METHOD OF RENDERING A RADIOACTIVE AND AQUEOUS HEAT TRANSFER LIQUID IN A NUCLEAR REACTOR TO A REDUCED RADWASTE QUANTITATIVE STATE AND RETURNING THE REMAINING WASTE WATER VOLUMES TO AN ENVIRONMENTAL RELEASE POINT FOR LIQUID EFFLUENTS - Environmentally protective Method of treating an aqueous radioactive fluid (AF) in a nuclear reactor cycle or radwaste system to selectively capture or remove radioactive isotopes in a reduced quantitative package to minimize radwaste generated and revitalize neutron absorption capacity of nuclear reactor coolant by separately carrying away boron constituents, when B | 01-28-2010 |
20100069700 | METHOD AND DEVICE FOR EVAPORATE/REVERSE OSMOSIS CONCENTRATE AND OTHER LIQUID SOLIDIFICATION - A Method and Device for solidification of waste liquids and fluids is disclosed, which is particularly well suited to processing radioactive waste fluids. Set forth is a receiving unit or subassembly for housing solidification agent, and one or more manifold units or subassemblies positioned within the receiving unit for providing waste fluid. The subassemblies operate in relation to each other to provide, position and mix solidification agent or polymer with waste fluid so that a dirt-like polymerized waste product is produced and positioned in the container for removal or later safe shipment or storage. Mathematical relationships, in preferred embodiments or aspects are utilized in determining number and sizing of manifold openings, and pressure of waste to be provided, to meet the requirements of waste fluids to be transported through these openings into the receiving unit. | 03-18-2010 |
20120273418 | BORON RECOVERY TREATMENT METHOD | 11-01-2012 |
20130153473 | CONCENTRATE TREATMENT SYSTEM - In one aspect the invention provides a system for treating a wastestream, particularly a radwaste, for safe disposal and, in final processing converting it into one or both forms including an aqueous form for safe discharge to the environment and a solidified form for safe disposal. In another aspect the invention provides the capacity to employ a step where a specific target element strategy can be set up synchronizing sorbent substance choices and multiple recycle options to remove target substances from wastestream as a part of its Sorption or Powder Sorbent Isotopic Reduction step (II). Other steps cooperate with Sorption step (II) including Oxidation (I), Solid-Liquid separation (III), and Selective Ion Exchange (IV) to deliver the wastestream to final processing. | 06-20-2013 |
20130345488 | ORGANIC NITRATE EXPLOSIVE TREATMENT SYSTEM - The present Treatment System ( | 12-26-2013 |
Matthew Paul Beets, Rondebosch ZA
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20090296880 | DISTORTION CORRECTION METHOD FOR LINEAR SCANNING X-RAY SYSTEM - Imaging apparatus comprises a radiation source arranged to generate a divergent imaging beam and an associated radiation detector mounted on a C-arm which can rotate. A first drive is arranged to move the radiation source and the detector relative to a subject in a scanning direction to generate output signals from the detector, thereby performing a scan generating image data containing distortion in a direction transverse to the scanning direction. A second drive is arranged to rotate the C-arm, to change the orientation of the radiation source in a direction transverse to the scanning direction incrementally between repeated scans, thereby to generate a plurality of sets of image data. A processor, which can be a PC or a dedicated processor, is provided for processing each set of image data to obtain equivalent parallel imaging beam data therefrom, corresponding to a given angle in the divergent imaging beam, and for combining a plurality of said equivalent parallel imaging beam data to generate a synthesized parallel imaging beam image. The apparatus includes a display for generating a visual display of the synthesized parallel imaging beam image. The resulting synthesized image has the distortion removed and measurements can be made from the image. The invention extends to a method carried out with the apparatus. | 12-03-2009 |
Nicholas Beets, Aliso Viejo, CA US
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20100161101 | RETRIEVING AND NAVIGATING THROUGH MANUFACTURING DATA FROM RELATIONAL AND TIME-SERIES SYSTEMS BY ABSTRACTING THE SOURCE SYSTEMS INTO A SET OF NAMED ENTITIES - A software agent is described that receives an information request to retrieve information based on a name defined by a configured manufacturing data model. The agent serves the request by relating data coming from one or multiple backend systems and adding contextual data (Metadata). A result set is prepared to correspond to the format and filtering criteria defined in the information request, and the agent produces a response in a normalized format. The response contains the requested data and metadata used for navigation and contextualization purposes. The response in the normalized format is transmitted by the agent synchronously or asynchronously based on criteria specified in the request. | 06-24-2010 |
Paul Beets, Indianapolis, IN US
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20150040113 | OPERATING SYSTEM REPLACEMENT FOR IN-VEHICLE COMPUTING SYSTEM - Embodiments are disclosed for a method of replacing an original operating system with a new operating system. In one example embodiment, a method to selectively replace a first in-vehicle operating system includes receiving a temporary update including a second in-vehicle operating system for storage in a memory location of the first in-vehicle operating system and receiving a request to update the first in-vehicle operating system based on the temporary update. The method may further include triggering a reboot of the first in-vehicle operating system including installing the second in-vehicle operating system. | 02-05-2015 |
Peter Hendrik Beets, Middenbeemster NL
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20080276840 | Device For Accommodating Objects, as Well as Transport Means - A device for accommodating objects, in particular for use in an airplane, comprising a housing, which has an access opening, as well as a door which is connected to the housing by at least one hinge so as to be pivotable between an open position and a closed position. The hinge defines a pivot axis for pivoting the door. The access opening is at least partially clear in the open position of the door and the access opening is at least partially closed off by the door in the closed position of the door. The door is lockable relative to the housing in its closed position. The door, in its closed position, is movable in a direction which extends substantially parallel to the pivot axis between a locked position and an unlocked position. The door, in its locked position, is locked relative to the housing, and the door, in its unlocked position, is pivotable about the pivot axis. | 11-13-2008 |
Randy Beets, Bulls Gap, TN US
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20130189540 | Cooper-Zinc-Manganese Alloys with Silvery-White Finish for Coinage and Token Applications - Alloys of copper and manganese and copper, manganese and zinc can be used for the production of coins, such as the U.S. five cent piece or “nickel.” With appropriate platings, these alloys can match the electromagnetic signatures or electrical conductivity of currently circulated coins. This is important as modern vending machines include sensors which measure the conductivity of coins to ensure they are genuine. | 07-25-2013 |
Raymond Roy Beets, Long Beach, MS US
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20120156789 | TITANIUM BEARING MATERIAL FLOW CONTROL IN THE MANUFACTURE OF TITIANIUM TETRACHLORIDE USING A COMBINATION OF FEEDBACK AND FEED FORWARD RESPONSES - This disclosure relates to process for controlling chlorination reactions in manufacturing titanium tetrachloride in a fluidized bed reactor, optionally followed by processing to form a titanium product comprising a minor amount of silica, the process comprising: (a) feeding carbonaceous material, titanium bearing material comprising an amount of silica, and chlorine to the fluidized bed reactor to form a gaseous stream, and condensing the gaseous stream to form titanium tetra-chloride, a non-condensed gas stream and a condensable product stream, wherein at least one of the titanium tetrachloride and the non-condensed gas stream comprise silicon tetrachloride; (b) analyzing the non-condensed gas stream, the titanium tetrachloride or both, to determine the analyzed concentration of silicon tetrachloride; (c) identifying a set point concentration of silicon tetrachloride based on the desired amount of silica in the titanium product; (d) calculating the difference between the analyzed concentration of silicon tetra-chloride and the set point concentration of silicon tetrachloride; (e) measuring the titanium tetrachloride flow to a processing reactor that releases chlorine; (f) measuring the flow of fresh chlorine added to the fluidized bed; (g) measuring the flow of the titanium bearing material added to the fluidized bed reactor and establishing a historic average flow of the titanium bearing material added to the fluidized bed reactor; (h) calculating the chlorine released from the titanium tetrachloride that is processed using the titanium tetrachloride flow data from step (e); (i) calculating the total chlorine flow to the fluidized bed reactor by adding the chlorine flow in step (f) to the chlorine flow calculated in step (h) and establishing a historic average chlorine flow; (j) calculating a unit titanium bearing material consumption per unit chlorine; (k) calculating an estimated current consumption rate of titanium bearing material based on the total chlorine flow from step (i) times the unit titanium bearing material consumption per unit chlorine from step (j); and (l) generating a signal based on difference generated in step (d) that provides a feedback response and combining this to the estimated current consumption rate of titanium bearing material from step (k) to provide a feed forward response to control the flow of the titanium bearing material into the fluidized bed reactor. | 06-21-2012 |
20120156790 | TITANIUM BEARING MATERIAL FLOW CONTROL IN THE MANUFACTURE OF TITANIUM TETRACHLORIDE WITH SILICA CONTENT MONITORING OF THE TITANIUM PRODUCT - This disclosure relates to a process for controlling chlorination reactions in manufacturing titanium tetrachloride in a fluidized bed reactor, followed by processing to form a titanium product comprising an amount of silica, the process comprising: (a) feeding carbonaceous material, titanium bearing material comprising an amount of silica, and chlorine to the fluidized bed reactor to form a gaseous stream, and condensing the gaseous stream to form titanium tetrachloride, a non-condensed gas stream and a condensable product stream; (b) processing the titanium tetrachloride to form a titanium product comprising an amount of silica; (c) analyzing the titanium product comprising an amount of silica to determine the analyzed concentration of silica; (d) identifying a set point concentration of silica; (e) calculating the difference between the analyzed concentration of silica and the set point concentration of silica; and (f) generating a signal which corresponds to the difference calculated in step (e) which provides a feedback response that controls the flow of the titanium bearing material into the fluidized bed reactor. | 06-21-2012 |