Baeumer
Dirk Baeumer, Zurich CH
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20090019426 | SYNCHRONIZATION OF WORK SPACES - A method is provided for synchronization of a first workspace with a second workspace. Both workspaces are connected to a version control system. The method comprises for a first refactoring operation being performed on the first workspace, performing first refactoring step, resulting in a modification of an object, storing the modification in a change information for the object, storing in a change information recording step the change information, and storing in a descriptor recording step refactoring information comprising information enabling execution of a refactoring corresponding to the first refactoring step during an update operation. The method further comprises for a commit operation, delivering in a change information delivery step the change information to the version control system, and delivering in a descriptor commit step the refactoring information to the version control system. Then the method comprises for the update operation being performed on the second workspace, retrieving into the second workspace in a load step from the version control system the change information and the refactoring information, performing a second refactoring operation using the refactoring information, and performing in an execution step an update of the object in the second workspace using the change information. | 01-15-2009 |
Klaus Baeumer, Kreuztal DE
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20080276996 | Platform for Industrial Installations, Particulary for High-Pressure Descalers, Emergency Shears and Pendulum Shears in Rolling Mill Trains or the Like - A platform for industrial installations, in particular for high-pressure descalers ( | 11-13-2008 |
20130312544 | METHOD AND DEVICE FOR REMOVING A SAMPLE FROM A COIL - The present invention relates to a device ( | 11-28-2013 |
Marcus Baeumer, Bremen DE
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20090101241 | ACTUATION VIA SURFACE CHEMISTRY INDUCED SURFACE STRESS - A method of controlling macroscopic strain of a porous structure includes contacting a porous structure with a modifying agent which chemically adsorbs to a surface of the porous structure and modifies an existing surface stress of the porous structure. A device in one embodiment includes a porous metal structure, which when contacted with a modifying agent which chemically adsorbs to a surface of the porous metal structure, exhibits a volumetric change due to modification of an existing surface stress of the porous metal structure; and a mechanism for detecting the volumetric change. Additional methods and systems are also presented. | 04-23-2009 |
20090291848 | Method for forming gold-containing catalyst with porous structure - The invention relates to a gold-containing catalyst with porous structure that is obtainable through a process that comprises the following steps: melting together of gold and at least one less noble metal that is selected from the group consisting of silver, copper, rhodium, palladium, and platinum, and at least partial removal by dissolving the at least one less noble metal out of the starting alloy thus obtained. The catalyst has high activity and great long-term stability, despite the fact that it does not contain a support material or a compound that serves as a support material. The catalyst can be used to accelerate and/or to influence the product selectivity of oxidation and reduction reactions. The catalyst is suitable, for example, for the oxidization of carbon monoxide to carbon dioxide, which makes it usable, among other things, in a fuel cell, in particular a polymer electrolyte membrane fuel cell (PEM), for protection of the anode catalyst against blocking by carbon monoxide. | 11-26-2009 |
20130337995 | HIGHLY ACTIVE THERMALLY STABLE NANOPOROUS GOLD CATALYST - In one embodiment, a system includes a nanoporous gold structure and a plurality of oxide particles deposited on the nanoporous gold structure; the oxide particles are characterized by a crystalline phase. In another embodiment, a method includes depositing oxide nanoparticles on a nanoporous gold support to form an active structure and functionalizing the deposited oxide nanoparticles. | 12-19-2013 |
Thomas Baeumer, Hueckelhoven DE
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20100037759 | BRAIDING BOBBIN, BRAIDING MACHINE AND METHOD FOR DRAWING OFF A FIBER FROM THE SPOOL OF A BRAIDING BOBBIN - A braiding bobbin includes a shaft and a spool from which a fiber thread can be drawn off through a thread guide mounted to rotate on the shaft. At least one torsion spring joins the shaft and the spool to each other. The spool is rotatable in a draw-off direction against the spring force and in an opposite, backwinding direction by the spring force of the torsion spring. A brake having an adjustable braking torque brakes rotation of the shaft in the draw-off direction. | 02-18-2010 |
Ulf-Steffen Baeumer, Dortmund DE
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20100294653 | Device for electrochemical water preparation - The invention relates to an electrolysis device for cleaning acidic waters which comprises a cathode, an anode, and an ion exchange membrane, wherein the membrane is arranged between the cathode and the anode and is attached at least along the entire circumference of its rim, wherein many inlets and outlets are arranged along the upper and lower rim of the electrolysis device which are linked to the cathode space or to the anode space, in such a way that a plug flow, ideally with a laminar profile, is created in the cathode space and in the anode space. | 11-25-2010 |
Ulf-Steffen Baeumer, Unna DE
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20100092692 | METHOD AND DEVICE FOR COATING SUBSTRATES - The invention relates to a method for coating one or more sides of substrates with catalytically active material, comprising material deposition under vacuum in a vacuum chamber, wherein the following steps are performed: (a) loading the vacuum chamber with at least one substrate, (b) closing and evacuating the vacuum chamber, (c) cleaning the substrate by introducing a gaseous reducing agent into the vacuum chamber, (d) increasing the size of the substrate surface by depositing a vaporous component on the substrate surface, (e) coating by a coating process taken from the group of plasma coating processes, physical gas deposition, sputtering processes or the like, wherein one or more metals and/or alkaline and/or earth alkaline metals or their oxides are applied to the surface of the substrate. This method may be used, for example, for coating electrodes which are used in the chlor-alkali electrolysis. | 04-15-2010 |
20130206584 | SUBSTRATE COATING ON ONE OR MORE SIDES - A method for coating a substrate on one or more sides having catalytically active material producible by material deposition under vacuum in a vacuum chamber, using the following steps: loading a substrate in the chamber evacuating the chamber, cleaning the substrate by introducing a gaseous reducing agent, removing the gaseous reducing agent, applying an intermediate layer by means of vacuum arc evaporation, wherein a substrate comprising the same or similar material is introduced into the vacuum chamber, controlling the chamber temperature, coating by vacuum arc evaporation, a metal taken from the group ruthenium, iridium, titanium and mixtures thereof while oxygen is supplied, in a last step the coated substrate is removed from the chamber, wherein at least 99% of the substrate coating is free of constituents originally contained in the substrate itself, and at least 99% of the coating applied on the intermediate layer is kept free of non-oxidized metals. | 08-15-2013 |