Patent application number | Description | Published |
20110024931 | METHOD AND DEVICE FOR THE PRODUCTION OF MOLDED BODIES - A method for the production of molded bodies from a base substance, wherein the base substance is mixed with a solution for producing a molding solution, and the solution subsequently is at least partially removed from the mixture, and the molding solution is fed to a unit for molding, wherein the molding solution is diluted before molding. | 02-03-2011 |
20110213140 | PROCESS FOR CONTINUOUS CATALYTIC ACETYLATION - In a process for continuous acetylation of polysaccharide, a pressure is to be established in a reactor chamber such that a boiling point of a reaction mixture corresponds to a desired reaction temperature and an exothermicity of the reaction is controlled by evaporative cooling. | 09-01-2011 |
20110294978 | PROCESS AND A DEVICE FOR THE CONTINUOUS TREATMENT OF MIXED SUBSTANCES - A process for the continuous thermal treatment of mixed substances, especially of solutions, suspensions and emulsions, wherein the continuous treatment of the mixed substances is divided into a main vaporization and a degassing stage, in which instance the main vaporization and the degassing take place in each case takes place in a separate mixer-kneader. | 12-01-2011 |
Patent application number | Description | Published |
20130093112 | PROCESS FOR PRODUCING A PRODUCT - A method for production of a molded article from a base substance in a device for mixing of the base substance with a solvent is provided. The method includes mixing a base substance to produce a molding solution with the solvent and at least partially removing the solvent from the mixture; and feeding the molding solution to a device for further processing of a product and diluting the molding solution before further processing. In embodiments, the diluent is introduced to the device before a discharge device and/or in the discharge device. | 04-18-2013 |
20130116399 | METHOD FOR CARRYING OUT POLYMERISATION PROCESSES - A method for carrying out polymerization processes, includes a first step involving polymerization or co-polymerization of a monomer or monomers, and a second step involving a separation step. In an embodiment, before the separation step, during the separation step, or both before and during the separation step, one or more substance is added to the reaction mixture that induces stripping, influencing of the temperature, or both stripping and influencing of the temperature such that the reaction equilibrium is shifted to the polymers and the rate of reaction to the monomer is slowed. In embodiments, before and/or in the second step, a substance is added to the reaction mixture so that a stop is achieved, and as a further function stripping and/or influencing of temperature occurs. | 05-09-2013 |
Patent application number | Description | Published |
20090049518 | Managing and Enforcing Policies on Mobile Devices - Embodiments of a system configured to manage policies, including decision policies and active policies, on mobile devices is described. The system is configured to manage policies, including decision policies and active policies, on mobile devices is described that includes a device policy repository, a policy decision point, a decision policy enforcer, and an active policy enforcer. The system includes a method for enforcing policies on mobile devices that proactively monitors the execution environment and automatically triggers active policies. The method further exports an interface and provides functionality to evaluate and enforce decision policies. The system can combine policies from different sources, including detecting and avoiding policy conflicts. | 02-19-2009 |
20100037088 | Intelligent Mobile Device Management Client - Embodiments of an intelligent agent for an OMA DM enabled mobile client device are described. The intelligent agent includes modules for storing management property values in one or more nodes of an OMA DM management tree of the mobile client device. At least some of the management values are analyzed and set in a server computer coupled to the mobile client device over a wireless network. The intelligent mobile client is configured to manage itself based on initial instructions and policies provided by a server that are transferred to the client by the OMA DM protocol. For example, a client might notice that the battery is nearly empty and so it automatically decreases its own backlight illumination level. The intelligent agent defines a set of management properties to include a status property representing a node severity value, and a property group consisting of a rule, an action property representing an action that is executed if the rule is satisfied, and a threshold value that represents a minimum value that is used as a rule parameter. | 02-11-2010 |
Patent application number | Description | Published |
20110257272 | MIXED CRYSTALS, METHOD FOR THE PRODUCTION THEREOF AND USE THEREOF IN THE PRODUCTION OF BAKED GOODS - The present invention relates to mixed crystals comprising a) leavening agent and b) 0.1 to 5000 ppm by weight of crystallization aid, based on the total amount of the leavening agent, in the form of at least polymer, wherein when hydrophilic cellulose derivatives are used as crystallization aid, the amount thereof is reduced to less than 100 ppm by weight, based on the total amount of the leavening agent. The present invention further relates to the production of the mixed crystals and to the use thereof in the production of bakery products, as acid regulator in foods, in the production of cosmetics products, in the synthesis and formulation of pharmaceutical products, and also as blowing agent in industrial processes such as, for example, the production of foam rubber, or for fire-extinguishing formulations. The present invention relates, furthermore, to the production of bakery products. | 10-20-2011 |
20120263825 | PROCESS FOR PRODUCING BAKED GOODS - The present invention relates to a process for producing baked goods which is characterized in that a mixture of at least one baking raising agent and at least one substance selected from the group consisting of asparaginase, sulfites, bisulfites, metabisulfites and chlorides is used in the production of the baked goods dough. In addition, the present invention relates to a mixture of at least one baking raising agent and at least one substance selected from the group consisting of asparaginase, sulfites, bisulfites, metabisulfites and chlorides. In addition, the present invention relates to the use of sulfites and metabisulfites for decreasing acrylamide in foods. | 10-18-2012 |
Patent application number | Description | Published |
20130110749 | CONTROL DEVICE AND METHOD FOR CALCULATING AN OUTPUT PARAMETER FOR A CONTROLLER | 05-02-2013 |
20140309754 | METHOD AND DEVICE FOR CREATING A DATA-BASED FUNCTION MODEL - A method for generating a data-based function model includes: providing a first data-based partial model ascertained from a first training data record; providing at least one additional training data record; and performing the following steps for the at least one additional training data record: ascertaining a difference training data record having training data which correspond to the differences between the output values of the relevant additional training data record and the function value of the sum of the partial function values (f | 10-16-2014 |
20140310210 | METHOD AND DEVICE FOR CREATING A FUCNTION MODEL FOR A CONTROL UNIT OF AN ENGINE SYSTEM - A computerized method for creating a function model based on a non-parametric, data-based model, e.g., a Gaussian process model, includes: providing training data including measuring points having one or multiple input variables, the measuring points each being assigned an output value of an output variable; providing a basic function; modifying the training data with the aid of difference formation between the function values of the basic function and the output values at the measuring points of the training data; creating the data-based model based on the modified training data; and providing the function model as a function of the data-based model and the basic function. | 10-16-2014 |
20140330400 | METHOD FOR SETTING UP A FUNCTIONALITY FOR A CONTROL UNIT - A method is provided for populating a function for a control unit with data, in which method measurements are performed on a system at different measuring points on a test stand, and a global data-based model is set up based on the obtained measured values, and virtual measurements which simulate real measurements on the test stand are carried out on the global data-based model, and uncertainties for virtual measured values of the virtual measurements are determined from the global data-based model, the uncertainties of the virtual measured values being taken into account when populating the function for the control unit with data. | 11-06-2014 |
Patent application number | Description | Published |
20090024210 | MEDICATION DEPOT FOR MEDICAL IMPLANTS - A method for producing an agent depot for mechanical connection to a surface of an endovascular implantable body, comprising a) providing one or more polymers; b) providing one or more agents; and c) producing an agent depot from said polymers and said agents, the agent depot being mechanically connectable to the surface of the body using force action or adhesive. | 01-22-2009 |
20090030507 | DEGRADABLE METAL STENT HAVING AGENT-CONTAINING COATING - A stent comprising a degradable metal stent main body; a partition layer which is applied to the surface of the stent main body so that at least parts of the surface of the luminal side are not covered; and an agent-containing layer which is applied to the surface of the partition layer at least partially on the abluminal side of the stent main body and comprises one or more agents and possibly one or more polymers. | 01-29-2009 |
20090311304 | DRUG-LOADED IMPLANT - The invention relates to a drug-loaded implant having a carrier body ( | 12-17-2009 |
20110178593 | MEDICATION DEPOT FOR MEDICAL IMPLANTS - An agent depot for mechanical connection to a surface of an endovascular implantable body, comprising one or more polymers, one or more bioactive agents, the agent depot being mechanically connectable to the implantable body by a force fit or an adhesive. | 07-21-2011 |
Patent application number | Description | Published |
20080292539 | TITANIUM DIOXIDE HAVING INCREASED SINTERING ACTIVITY - A crystalline titanium dioxide powder, containing aggregated primary particles, wherein a BET surface area of the aggregated primary particles is from 30 to 65 m | 11-27-2008 |
20100150819 | TITANIUM DIOXIDE HAVING INCREASED SINTERING ACTIVITY - A crystalline titanium dioxide powder, containing aggregated primary particles, wherein a BET surface area of the aggregated primary particles is from 30 to 65 m | 06-17-2010 |
20110000397 | DISPERSION COMPRISING HYDROPHOBIZED SILICON DIOXIDE PARTICLES - Aqueous dispersion which comprises hydrophobized silicon dioxide particles and in each case one or more dispersing additives, a basic composition, and which is free of colour pigments, inactive fillers and binders, in which the hydrophobized silicon dioxide particles have a methanol wettability of 30 to 60 and are present in the dispersion with a proportion of 0.1 to 50% by weight,—the proportion of water is 30 to 90% by weight based on the dispersion,—the dispersing additive is at least one phosphate ester of an ethoxylated alcohol having 8 to 18 carbon atoms, the proportion of which is 3 to 25% by weight based on the proportion of the hydrophobized silicon dioxide particles,—the basic composition comprises or consists of one or more amines of the general formula RNH | 01-06-2011 |
20110015281 | APPARATUS AND METHOD FOR CARRYING OUT CHEMICAL AND PHYSICAL MATERIALS TRANSFORMATIONS - Reactor for carrying out chemical and physical materials transformations, which comprises a reaction space enclosed by a reactor housing, where the reactor housing has at least two lateral fluid inlets having adjustably mounted nozzles which include an angle of about 20-160 degrees and through which fluid jets which impinge on one another at a common collision point within the reaction space are passed and the reactor has a fluid outlet at the bottom of the reaction space, which is characterized in that—an exchangeable bottom plate•which has a hole as fluid outlet and•on which moveably supported spheres are located so as to block the original path of the individual fluid jets in the unaligned state rests on the bottom of the reaction space and—a half shell standing upright on the bottom of the reaction space is located between each moveably supported sphere and the wall of the reactor space and—bottom plate, half shell and moveably supported spheres comprise one or more hard materials. | 01-20-2011 |
20110086958 | PROCESS FOR PREPARING REDISPERSIBLE SURFACE-MODIFIED SILICON DIOXIDE PARTICLES - Process for preparing surface-modified silicon dioxide particles with a mean particle diameter of at most 100 nm, comprising the steps of: a) providing a predispersion b) high-pressure grinding of the predispersion to form a dispersion c) removing the liquid phase of the dispersion, the predispersion comprising a1) surface-modified silicon dioxide particles which are at least partly aggregated, are bonded to the surface-modifying component via Si—O—Si bonds and still have reactive groups on their surface, a2) one or more organosilicon compounds which have at least one silicon-carbon bond and at least one functional group which can react with the reactive groups to form a covalent Si—O—Si bond, and a3) one or more solvents. Redispersible, surface-modified silicon dioxide particles obtainable by this process. Use of these in toner powders, silicone rubber, adhesives and scratch-resistance surface coatings. | 04-14-2011 |
20110123806 | DISPERSION OF HYDROPHOBICIZED SILICON DIOXIDE PARTICLES AND GRANULES THEREOF - Process for preparing a dispersion of surface-modified silicon dioxide particles having an average particle diameter of not more than 100 nm by high-pressure milling of a preliminary dispersion comprising a) 10% to 50% by weight of surface-modified silicon dioxide particles, b) at least one glycol monoether of the general formula (A): H | 05-26-2011 |