Patents by Inventor Armin Brenner
Armin Brenner has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10737233Abstract: The invention relates to a flow element for transferring fluids comprising a capillary cartridge (1) having an integrated capillary line (3). The capillary cartridge according to the invention (1) has a ring-shaped channel (8) and securing grooves (6, 6?), wherein the flow element is characterized in that the capillary line (3) is arranged in the ring-shaped channel (8). The ends of the capillary lines (3) are connected to connection elements (9) in which securing grooves (6, 6?) are secured in a positive locking manner. The flow elements according to the invention contribute toward improved manageability and effectiveness of components. In a preferred embodiment, the flow elements are used as a distribution system in the form of a plurality of capillary cartridges (1-1, 1-2, . . . ). Such distribution systems are of technical importance in the field of catalyst testing apparatuses with reactors arranged in parallel.Type: GrantFiled: August 5, 2016Date of Patent: August 11, 2020Assignee: hte GmbH the high throughput experimentation companyInventors: Armin Brenner, Oliver Koechel, Sebastian Keim, Frank Guellich, Joerg Braschkat
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Publication number: 20180221844Abstract: The invention relates to a flow element for transferring fluids comprising a capillary cartridge (1) having an integrated capillary line (3). The capillary cartridge according to the invention (1) has a ring-shaped channel (8) and securing grooves (6, 6?), wherein the flow element is characterized in that the capillary line (3) is arranged in the ring-shaped channel (8). The ends of the capillary lines (3) are connected to connection elements (9) in which securing grooves (6, 6?) are secured in a positive locking manner. The flow elements according to the invention contribute toward improved manageability and effectiveness of components. In a preferred embodiment, the flow elements are used as a distribution system in the form of a plurality of capillary cartridges (1-1, 1-2, . . . ). Such distribution systems are of technical importance in the field of catalyst testing apparatuses with reactors arranged in parallel.Type: ApplicationFiled: August 5, 2016Publication date: August 9, 2018Applicant: hte GmbH the high throughput experimentation companyInventors: Armin BRENNER, Oliver KOECHEL, Sebastian KEIM, Frank GUELLICH, Joerg BRASCHKAT
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Patent number: 9708553Abstract: The present invention relates to a process for handling product fluid streams which are obtained in the catalytic hydrogenation of liquid feeds in laboratory catalysis apparatuses. The liquid feeds are preferably hydrocarbons comprising sulfur- and nitrogen-comprising compounds as impurities. The hydrogenation serves to convert the impurities into hydrogen sulfide and ammonia which in this form can be readily separated off from the other constituents of the liquid feed. The product fluid streams are contacted with an inert gas stream, with the flow rate of the inert gas being a multiple of the flow rate of the product fluid stream. The formation of deposits in lines of the region on the outlet side of the reaction space can be effectively prevented by means of the process of the invention.Type: GrantFiled: July 30, 2012Date of Patent: July 18, 2017Assignee: hte GmbH the high throughput experimentation companyInventors: Josef Find, Alfred Haas, Armin Brenner
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Publication number: 20150249258Abstract: The invention relates to an apparatus and a method for producing electrochemical cells, preferably Li-ion cells. The apparatus comprises at least one placing location (13, 15, 17, 19), at least one assembly location (2, 4), a robot system (3) with gripper (150), an automated pipetting machine (5) with cleaning station, a tool for sealing cell stacks and at least one tray with depressions for accommodating components, the number of depressions being in total greater than or equal to two, preferably greater than or equal to four and particularly preferably greater than or equal to six. For assembling the cells, the individual components E1 to E5 are placed in trays on the placing locations and are automatically moved from there by a gripper to the assembly zone and positioned. The zones between the components E2 and E3 and between E3 and E4 are filled with electrolyte.Type: ApplicationFiled: November 12, 2013Publication date: September 3, 2015Applicant: BASF SEInventors: Hannes Wolf, Klaus Leitner, Andreas Mueller, Armin Brenner
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Publication number: 20140174987Abstract: The present invention relates to a process for handling product fluid streams which are obtained in the catalytic hydrogenation of liquid feeds in laboratory catalysis apparatuses. The liquid feeds are preferably hydrocarbons comprising sulfur- and nitrogen-comprising compounds as impurities. The hydrogenation serves to convert the impurities into hydrogen sulfide and ammonia which in this form can be readily separated off from the other constituents of the liquid feed. The product fluid streams are contacted with an inert gas stream, with the flow rate of the inert gas being a multiple of the flow rate of the product fluid stream. The formation of deposits in lines of the region on the outlet side of the reaction space can be effectively prevented by means of the process of the invention.Type: ApplicationFiled: July 30, 2012Publication date: June 26, 2014Applicant: hte Aktiengesellschaft the high throughput experimentation companyInventors: Josef Find, Alfred Haas, Armin Brenner
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Publication number: 20140093966Abstract: The inventive device serves for simultaneous supply of nonvolatile reactant liquid to a plurality of mixing points or to a plurality of reactors, the device comprising a reservoir vessel, a supply line and a splitter which divides the supply line into a group of downstream lines. Each individual downstream line is functionally connected to one mixing point or one reactor and each is equipped with a restrictor element, the restrictor elements and at least parts of the downstream lines being in contact with a sheath having a temperature control unit.Type: ApplicationFiled: May 23, 2012Publication date: April 3, 2014Applicant: HTE AG, the High Troughput Experimentation CompanyInventors: Josef Find, Alfred Haas, Armin Brenner, Denis Huertgen
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Patent number: 8383050Abstract: A method and a device for the parallel study of chemical reactions in at least two spatially separated reaction spaces is provided. A device for the parallel study of chemical reactions includes at least the following components: (a) at least two spatially separated reaction spaces; (b) on the reaction space input side, at least one common educt feed for the reaction spaces according to (a); (d) on the reaction space output side, at least one connection per reaction space to at least one holding gas feed common to all the reaction spaces, or subsets of them; (e) on the reaction space output side, and downstream of the connection to the holding gas feed according to (d) in the product flow direction, at least one restrictor per reaction space.Type: GrantFiled: September 28, 2010Date of Patent: February 26, 2013Assignee: HTE AGInventors: Alfred Haas, Wolfgang Strehlau, Armin Brenner, Oliver Koechel, Markus Friess, Torsten Zech
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Publication number: 20110014718Abstract: The present invention relates to a method and a device for the parallel study of chemical reactions in at least two spatially separated reaction spaces. In particular, the invention is suitable for reactions which are not constant volume reactions and/or for reactions in which fluid flows through at least two spatially separated reaction spaces are intended to be controlled together for all the reaction spaces, or for related subsets of them, in the most straightforward way possible.Type: ApplicationFiled: September 28, 2010Publication date: January 20, 2011Applicant: hte Aktiengesellschaft the high throughput experimentation companyInventors: Alfred Haas, Wolfgang Strehlau, Armin Brenner, Oliver Koechel, Markus Friess, Torsten Zech
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Patent number: 7867458Abstract: The present invention relates to a method and a device for the parallel study of chemical reactions in at least two spatially separated reaction spaces. In particular, the invention is suitable for reactions which are not constant volume reactions and/or for reactions in which fluid flows through at least two spatially separated reaction spaces are intended to be controlled together for all the reaction spaces, or for related subsets of them, in the most straightforward way possible.Type: GrantFiled: April 16, 2009Date of Patent: January 11, 2011Assignee: HTE Aktiengesellschaft The High Throughtput Experimentation CompanyInventors: Alfred Haas, Wolfgang Strehlau, Armin Brenner, Oliver Koechel, Markus Friess, Torsten Zech
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Publication number: 20090258431Abstract: The present invention relates to a method and a device for the parallel study of chemical reactions in at least two spatially separated reaction spaces. In particular, the invention is suitable for reactions which are not constant volume reactions and/or for reactions in which fluid flows through at least two spatially separated reaction spaces are intended to be controlled together for all the reaction spaces, or for related subsets of them, in the most straightforward way possible.Type: ApplicationFiled: April 16, 2009Publication date: October 15, 2009Applicant: HTE AKTIENGESELLSCHAFT THE HIGH THROUGHPUT EXPERIMENTATION COMPANYInventors: Alfred Haas, Wolfgang Strehlau, Armin Brenner, Oliver Koechel, Markus Friess, Torsten Zech
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Patent number: 7537739Abstract: The present invention relates to a method and a device for the parallel study of chemical reactions in at least two spatially separated reaction spaces. In particular, the invention is suitable for reactions which are not constant volume reactions and/or for reactions in which fluid flows through at least two spatially separated reaction spaces are intended to be controlled together for all the reaction spaces, or for related subsets of them, in the most straightforward way possible.Type: GrantFiled: December 20, 2004Date of Patent: May 26, 2009Assignee: HTE AGInventors: Alfred Haas, Wolfgang Strehlau, Armin Brenner, Oliver Koechel, Markus Friess, Torsten Zech
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Patent number: 7374942Abstract: A process and apparatus for testing material libraries, in particular catalysts, by means of coupled use of at least two analytical methods, preferably IR thermography and mass spectrometry. Owing to the selected arrangement, the disadvantages of the two previously known individual methods are compensated for: the subsequent selectivity determination for selected sections by means of mass spectrometry invalidates the argument against IR thermography, of only being able to determine activities; the rapid integrated determination of potentially “good” materials via IR thermography prevents an excessive loss of time by needing to test all materials of a library successively with the mass spectrometer.Type: GrantFiled: March 16, 2001Date of Patent: May 20, 2008Assignee: BASF AktiengesellschaftInventors: Jens Klein, Wolfram Stichert, Wolfgang Strehlau, Armin Brenner, Stephan Andreas Schunk, Dirk Demuth
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Publication number: 20070148062Abstract: The present invention relates to a method and a device for the parallel study of chemical reactions in at least two spatially separated reaction spaces. In particular, the invention is suitable for reactions which are not constant volume reactions and/or for reactions in which fluid flows through at least two spatially separated reaction spaces are intended to be controlled together for all the reaction spaces, or for related subsets of them, in the most straightforward way possible.Type: ApplicationFiled: December 20, 2004Publication date: June 28, 2007Inventors: Alfred Haas, Wolfgang Strehlau, Armin Brenner, Oliver Koechel, Markus Friess, Torsten Zech
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Patent number: 7202088Abstract: The present invention relates to an arrangement, in particular for the parallel testing of a plurality of building blocks of a material library for performance characteristics, in which the arrangement has a block containing at least one reaction module and at least two heating/cooling modules.Type: GrantFiled: July 27, 2001Date of Patent: April 10, 2007Assignee: hte Aktiengesellschaft the high throughput experimentation companyInventors: Alfred Haas, Stephan Andreas Schunk, Dirk Demuth, Wolfgang Strehlau, Armin Brenner, Wolfram Stichert
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Patent number: 6873414Abstract: Method for determining useful properties of individual building blocks of a material library including a substrate having at least two individual building blocks in at least two sections separated from one another, which method includes: (ii) introducing at least one starting material into at least two sections of a substrate of a material library which are separated from one another, in order to carry out a chemical or physical or chemical and physical reaction of the starting material in the at least two substrate sections separated from another, in each case in the presence of the corresponding building block, obtaining in each case an effluent comprising at least one reaction product and/or starting material and, (iii) analysing the effluent obtained in the reaction according to (ii) comprising at least one reaction product and/or starting material; the effluent being analysed by recording and analysing at least one photoacoustic signal.Type: GrantFiled: February 2, 2001Date of Patent: March 29, 2005Assignee: hte AktiengesellschaftInventors: Ferdi Schüth, Armin Brenner, Stephan Andreas Schunk
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Patent number: 6862533Abstract: The invention relates to a method for the automated production and iterative automated optimization of a substance library and/or at least one reaction parameter relating to a performance characteristic comprising at least two substances comprising the steps of: a) defining at least one production parameter and at least one test parameter; b) automated preparation of a substance library by producing at least two substances on the basis of the at least one production parameter; c) automated testing of the at least two substances of the substance library with respect to at least one performance characteristic on the basis of the at least one test parameter; d) evaluating the test using electronic data analysis; e) varying the at least one production parameter and/or the at least one test parameter for optimizing the performance characteristics, and single or repeated repetition of steps b) to e) or c) to e); characterized in that the steps b) to e) are carried out in an integrated automated process.Type: GrantFiled: June 8, 2001Date of Patent: March 1, 2005Assignee: hte Aktiengesellschaft the high throughput experimentation companyInventors: Wolfgang Strehlau, John Michael Newsam, Dirk Demuth, Wolfram Stichert, Armin Brenner, Stephan A. Schunk, Jens Klein
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Publication number: 20030203400Abstract: The invention relates to a method for the automated production and iterative automated optimization of a substance library and/or at least one reaction parameter relating to a performance characteristic comprising at least two substances comprising the steps of: a) defining at least one production parameter and at least one test parameter; b) automated preparation of a substance library by producing at least two substances on the basis of the at least one production parameter; c) automated testing of the at least two substances of the substance library with respect to at least one performance characteristic on the basis of the at least one test parameter; d) evaluating the test using electronic data analysis; e) varying the at least one production parameter and/or the at least one test parameter for optimizing the performance characteristics, and single or repeated repetition of steps b) to e) or c) to e); characterized in that the steps b) to e) are carried out in an integrated automated process.Type: ApplicationFiled: June 8, 2001Publication date: October 30, 2003Inventors: Wolfgang Strehlau, John Michael Newsam, Dirk Demuth, Wolfram Stichert, Armin Brenner, Stephen A. Schunk, Jens Klein
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Publication number: 20030159530Abstract: The present invention relates to an arrangement, in particular for the parallel testing of a plurality of building blocks of a material library for performance characteristics, in which the arrangement has a block containing at least one reaction module and at least two heating/cooling modules.Type: ApplicationFiled: March 17, 2003Publication date: August 28, 2003Inventors: Alfred Haas, Stephan Andreas Schunk, Dirk Demuth, Wolfgang Stehlau, Armin Brenner, Wolfram Stichert
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Patent number: 6537500Abstract: Process for the detection of a product in the discharge of a catalytic material of a plurality of catalytic materials which are exposed to a reaction gas, whereby an adsorbent selective for the product to be determined is disposed in the discharge of each catalytic material, which changes at least one of its properties through the contact with the product to be determined and the change in the property of the adsorbent is then ascertained. The process serves in particular to determine the selectivity and activity of catalytic materials.Type: GrantFiled: July 9, 1999Date of Patent: March 25, 2003Assignee: hte AktiengesellschaftInventors: Armin Brenner, Armin Lange de Oliveira, Ferdi Schuth, Stephan Schunk, Wolfram Stichert, Klaus Unger
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Publication number: 20020017617Abstract: Method for determining useful properties of individual building blocks of a material library including a substrate having at least two individual building blocks in at least two sections separated from one another, which method includes: (ii) introducing at least one starting material into at least two sections of a substrate of a material library which are separated from one another, in order to carry out a chemical or physical or chemical and physical reaction of the starting material in the at least two substrate sections separated from another, in each case in the presence of the corresponding building block, obtaining in each case an effluent comprising at least one reaction product and/or starting material and, (iii) analysing the effluent obtained in the reaction according to (ii) comprising at least one reaction product and/or starting material; the effluent being analysed by recording and analysing at least one photoacoustic signal.Type: ApplicationFiled: February 2, 2001Publication date: February 14, 2002Inventors: Ferdi Schuth, Armin Brenner, Stephan Andreas Schunk