Patents by Inventor Jürgen Hoffmann
Jürgen Hoffmann 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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Publication number: 20120186268Abstract: A method is provided for operating a gas turbine power plant with exhaust gas recirculation, in which, based upon the operating state of the gas turbine a setpoint concentration of at least one constituent in an exhaust gas flow and/or in the intake flow of the gas turbine after adding the recirculated exhaust gases is determined. The actual concentration of the at least one constituent in the exhaust gas flow and/or in the intake flow is measured and a control element for controlling the recirculation flow is controlled based upon the setpoint/actual deviation. Also provided is a gas turbine power plant with exhaust gas recirculation and includes a controller, in which a setpoint concentration of at least one constituent in an exhaust gas flow or in the intake flow of the gas turbine is determined, and a measuring instrument for measuring the actual concentration of the at least one constituent.Type: ApplicationFiled: January 21, 2012Publication date: July 26, 2012Applicant: ALSTOM TECHNOLOGY LTDInventors: Stefan ROFKA, Juergen HOFFMANN, Eribert BENZ, Frank SANDER, Martin NICKLAS
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Publication number: 20120155951Abstract: A device for connecting two components, in particular a linkage of bars (38) and an engine hood (40), has a fastening element (10) and a securing element (24) cooperating with the fastening element (10). The fastening element (10) includes a fastening section (18) for connecting the fastening element (10) with the first component and a receiving section (12) for mounting the second component. The securing element (24) includes first and second securing sections (26, 28) and is transferable to a final assembly position, in which the first securing section (26) secures the connection of the fastening element (10) with the first component and at the same time the second securing section (28) secures the mounting of the second component in the receiving section (12).Type: ApplicationFiled: June 22, 2011Publication date: June 21, 2012Inventors: Hubert Loewe, Juergen Hoffmann, Klaus Hock, Anett Kilian
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Publication number: 20120031101Abstract: A method is provided for CO2 separation from a combined-cycle power plant with exhaust-gas recirculation and CO2 separation. The hot-gas flow is split into a recirculation flow and an exhaust-gas flow before the final turbine stage in the turbine. A first partial flow remains in the turbine and carries out expansion work in the conventional form, before its waste heat is dissipated, for example in a waste-heat boiler, and the gases are recirculated into the inlet flow of the gas turbine. A second partial flow is diverted before the final turbine stage, and emits its waste heat in an HRSG/heat exchanger, before CO2 is separated from the exhaust-gas flow at an increased pressure level.Type: ApplicationFiled: July 20, 2011Publication date: February 9, 2012Applicant: ALSTOM TECHNOLOGY LTDInventors: Jürgen HOFFMANN, Hans Peter KNOPFEL, Hans E. WETTSTEIN
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Publication number: 20110304155Abstract: CO2 compression is a main step in carbon capture and storage, which is essential to control global warming. CO2 compressors are powered by electric motors, which increase operational flexibility but require much energy leading to additional expenses, power and efficiency losses. A method is provided for optimized operation of a plant including a power generation unit with a CO2 capture system and compressor with minimum losses during normal operation, allowing flexible part load. The method allows steam from the power unit to drive a steam turbine, which drives the CO2 compressor via an engaged overrunning clutch if a sufficient amount of steam is available from the power unit, and to drive it by the generator, which is used as motor when insufficient steam is available from the power unit. When no or insufficient steam is available the clutch is disengaged and the steam turbine may be at standstill or idling.Type: ApplicationFiled: June 7, 2011Publication date: December 15, 2011Applicant: ALSTOM TECHNOLOGY LTDInventors: Jürgen HOFFMANN, Holger NAGEL, Hongtao LI
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Publication number: 20110302922Abstract: A method is provided for operating a combined cycle power plant including a CO2 capture system and flue gas recirculation system. The method includes controlling a flue gas recirculation rate and a re-cooling temperature of the recirculated flue gases, depending on load, to optimize the overall plant efficiency including the CO2 capture system. Also provided is a combined cycle power plant including a CO2 capture system and flue gas recirculation system. The plant being configured to carry out a method in which a flue gas recirculation rate and a re-cooling temperature of recirculated flue gases is controlled depending on load to optimize the overall plant efficiency including the CO2 capture system.Type: ApplicationFiled: June 15, 2011Publication date: December 15, 2011Applicant: ALSTOM TECHNOLOGY LTDInventors: Hongtao LI, Jürgen HOFFMANN, Holger NAGEL, Francois DROUX, Celine MAHIEUX, Christoph RUCHTI, Manfred WIRSUM
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Publication number: 20110289898Abstract: An exemplary system method for the operation of a CCP P with flue gas recirculation to reduce NOx emissions and/or to increase the CO2 concentration in the flue gases to facilitate CO2 capture from the flue gases is disclosed. The flue gas recirculation rate (rFRG) is controlled as function of the combustion pressure and/or the hot gas temperature. Operability is enhanced by admixing of oxygen or oxygen enriched air to the gas turbine inlet gases or to the combustion.Type: ApplicationFiled: May 26, 2011Publication date: December 1, 2011Applicant: ALSTOM Technology LtdInventors: Jaan HELLAT, Jürgen HOFFMANN
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Publication number: 20110214518Abstract: The invention relates to a functional part of an electronic piston stroke pipette with an operating environment adapted to manual piston stroke pipettes. The piston stroke pipette according to the invention comprises a pipette cone, in which there is a movable piston, rigidly connected with a transmission for its upwards and downwards movements via a piston rod, in which context the transmission is propelled by a drive motor and wherein the control board comprises an upper part as the operating part for turning and pressing and a bar as a cylindrical connection to the electronics, with the control board and display integrated in the display housing in the upper part and drive motor and battery (rechargeable battery) in the lower part of the pipette housing. Fields of application of the invention are analytical chemistry and medicinal diagnostics.Type: ApplicationFiled: September 22, 2009Publication date: September 8, 2011Applicant: AHN BIOTECHNOLOGIE GMBHInventors: Marcel Hoffmann, Hans-Jürgen Hoffmann
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Publication number: 20110197593Abstract: A gas turbine and method are disclosed by which the gas turbine can be safely operated at nominal speed with reduced margin to a surge limit of a compressor. The gas turbine, via a directly driven generator which generates alternating current with an operating frequency and which is connected in a frequency-coupled manner to an electricity grid, can deliver electric power to this grid. In the case of an underfrequency event the compressor of the gas turbine is unloaded by controlled, fast closing of the variable compressor guide vanes (VGV) and as a result maintains a sufficient margin to the surge limit of the compressor.Type: ApplicationFiled: February 22, 2011Publication date: August 18, 2011Applicant: ALSTOM Technology Ltd.Inventors: Herbert FUCHS, Anton Nemet, Jürgen Hoffmann
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Patent number: 7950240Abstract: In a method for operating a gas turbine plant (10) with a compressor (11) for the compression of combustion air sucked in from the surroundings, with a combustion chamber (15) for generating hot gas by the combustion of a fuel with compressed combustion air, and with a turbine (12), in which the hot gas from the combustion chamber (15) is expanded so as to perform work, temperatures and pressures are measured at various points in the gas turbine plant (10), and a combustion chamber exit temperature is derived from the measured temperatures and pressures and used for controlling the gas turbine plant (10). Improved temperature determination is achieved in that the composition of the gas, in particular the water content in the exhaust gas of the turbine (12), is determined, and in that the specific water content in the exhaust gas of the turbine (12) is taken into account in deriving the combustion chamber exit temperature.Type: GrantFiled: March 21, 2007Date of Patent: May 31, 2011Assignee: ALSTOM Technology Ltd.Inventors: Anton Nemet, Jürgen Hoffmann
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Patent number: 7944094Abstract: A power station (40) is provided having a turbine section including a gas turbine (12) and a generator (28) which is driven directly by the gas turbine (12) and produces alternating current at a first operating frequency, and whose output can be connected to a consumer (V) having a predetermined second operating frequency. Increased flexibility for design and operation of the power station (40) is achieved in that an electronic decoupling apparatus (27), which decouples the two operating frequencies from one another, is arranged between the generator (28) and the consumer (V).Type: GrantFiled: August 14, 2009Date of Patent: May 17, 2011Assignee: Alstom Technology Ltd.Inventor: Jürgen Hoffmann
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Patent number: 7913936Abstract: A silencer in a flow duct (10) comprises at least one plate-shaped element (12) which extends essentially parallel to the throughflow direction (16) of the flow duct. Integrated in the plate-shaped element (12), preferably in the downstream region, are means (13, 14) for feeding and for spraying a liquid (15) into the throughflow of the flow duct. The spraying means are preferably arranged in such a way that the liquid (15) is sprayed at an angle of at least 30° to the throughflow (16). The silencer according to the invention is used, for example, in the intake duct of a gas turboset.Type: GrantFiled: November 9, 2005Date of Patent: March 29, 2011Assignee: Alstom Technology LtdInventor: Juergen Hoffmann
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Publication number: 20110037276Abstract: A method is provided for operating a gas turbine in a power station in which limits of the operating concept, which provide limits for optimization of the power station operation in respect of efficiency, service life consumption, emissions and power provision to the grid system, are adapted during operation. In particular, temperature limits and compressor inlet guide vane position limits are varied as a function of the optimization aims. A gas turbine power station is also provided for carrying out the method.Type: ApplicationFiled: September 3, 2010Publication date: February 17, 2011Applicant: ALSTOM TECHNOLOGY LTD.Inventors: Jürgen HOFFMANN, Johann Josef DAXER, Bernhard WIPPEL, Klaus-Dieter LIEDTKE
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Publication number: 20110018265Abstract: A combined-cycle power plant (10) has at least one power train (60) including a steam turbine (24) and a second generator (8) directly driven by the steam turbine (24) and generating alternating current, the output of which generator is connected to a power grid (21) having a given grid frequency (F), and at least one power train (11) of a gas turbine (12) and a first generator (18) driven directly by the gas turbine (12) and generating alternating current with an operating frequency, the output of which generator is connected to a power grid (21) having a predetermined grid frequency. An electronic decoupling device or a variable electronic gear unit (27) decouples the operating frequency from the grid frequency and is arranged between the first generator (18) and the power grid (21). Such a plant allows both flexible steady-state operation with high overall efficiency as well as flexible transient operation.Type: ApplicationFiled: September 21, 2010Publication date: January 27, 2011Inventors: Jürgen Hoffmann, Thomas Meindl
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Patent number: 7772229Abstract: There is provided compounds of formula I, wherein R1, R2, R3, R4, R41 to R46, A, B and G have meanings given in the description, which are useful in the prophylaxis and in the treatment of arrhythmias, in particular atrial and ventricular arrhythmias.Type: GrantFiled: March 22, 2006Date of Patent: August 10, 2010Assignee: AstraZeneca ABInventors: Annika Björe, Magnus Björsne, Kurt-Jürgen Hoffmann, Fritiof Pontėn, Gert Strandlund, Peder Svensson, Michael Wilsterman
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Publication number: 20100059073Abstract: The invention relates to a novel smokeless cigarette system comprising two parts: a reusable cigarette tube (1) and a nicotine stick (5) which can be discarded after use. The nicotine stick (5), comprising a deposit filter (2) that is charged with a nanobead solution (4) and nicotine and flavour substances attached thereto or incorporated therein, and the mouthpiece filter (3) are joined together and produced at the factory stage. All parts closely reproduce a cigarette as detailed as possible in terms of their outer appearance, design, dimensions, draw resistance during use, taste and nicotine absorption. According to the invention, the smokeless cigarette is particularly suited for use by smokers in non-smoking areas in order to prevent stress caused by nicotine withdrawal and as a cigarette substitute, but can also be used in different types of cigarettes with varied dosage strengths to ensure a gentle (slow) nicotine withdrawal and smoker disintoxication.Type: ApplicationFiled: March 16, 2008Publication date: March 11, 2010Inventors: Hans-Jürgen Hoffmann, Peter Bendzko
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Publication number: 20100032964Abstract: A method is provided for operating a power station (10) with turbine shafting (11) including a gas turbine (12) and a generator (18) that is driven directly by the gas turbine (12) and that generates alternating current with an operating frequency. The output of the generator is connected to an electrical grid (21) with a given grid frequency. An electronic decoupling apparatus or variable electronic gearbox (27) is arranged between the generator (18) and the grid (21). The decoupling apparatus decouples the operating frequency from the grid frequency. In the event of a temporary over-frequency or under-frequency event in the electrical grid (21), the mechanical rotational speed of the gas turbine (12) is decreased more than the grid frequency during an under-frequency event of the electrical grid (21) and is increased more than the grid frequency during an over-frequency event of the electrical grid (21).Type: ApplicationFiled: August 14, 2009Publication date: February 11, 2010Applicant: ALSTOM TECHNOLOGY LTDInventors: Jürgen HOFFMANN, Thomas MEINDL
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Publication number: 20100031667Abstract: A method is provided for operating a power station (10), with turbine shafting (11), that includes a gas turbine (12) and a generator (18) driven directly by the gas turbine (12) and that generates alternating current with an operating frequency, the output of the generator is connected with an electrical grid (21) with given grid frequency. An electronic decoupling apparatus or variable electronic gearbox (27) is arranged between the generator (18) and the grid (21), the decoupling apparatus decouples the operating frequency from the grid frequency. Increased service life of the station and reduced emissions are achieved in that, when there are longer-lasting changes in the grid frequency, the mechanical or aerodynamic rotational speed of the gas turbine (12) is kept constant and the output of the gas turbine (12) is adjusted without a delay.Type: ApplicationFiled: August 14, 2009Publication date: February 11, 2010Applicant: ALSTOM TECHNOLOGY LTDInventors: Jürgen HOFFMANN, Thomas MEINDL
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Publication number: 20100013326Abstract: A power station (40) is provided having a turbine section including a gas turbine (12) and a generator (28) which is driven directly by the gas turbine (12) and produces alternating current at a first operating frequency, and whose output can be connected to a consumer (V) having a predetermined second operating frequency. Increased flexibility for design and operation of the power station (40) is achieved in that an electronic decoupling apparatus (27), which decouples the two operating frequencies from one another, is arranged between the generator (28) and the consumer (V).Type: ApplicationFiled: August 14, 2009Publication date: January 21, 2010Applicant: ALSTOM TECHNOLOGY LTDInventor: Jürgen HOFFMANN
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Patent number: 7526920Abstract: A liquid atomizing arrangement comprises: a line system, at least one pressure atomizer nozzle, at least one line for the liquid to be atomized, and at least one first actuator for setting the atomizing supply pressure and/or the liquid mass flow through the atomizing arrangement. method of operating the liquid atomizing arrangement comprises the steps of measuring the mass flow flowing through the liquid atomizing arrangement, of measuring the atomizing supply pressure upstream of the pressure atomizer nozzle, and of acting upon the first actuator as a function of at least one of these measured values.Type: GrantFiled: May 3, 2006Date of Patent: May 5, 2009Assignee: Alstom Technology LtdInventors: Juergen Hoffmann, Carlos Jimenez Haertel, Sasha Savic
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Method of controlling the injection of liquid into an inflow duct of a prime mover or driven machine
Patent number: 7520137Abstract: The injection of finely atomized liquid-droplets into the intake air flow of a compressor is used, for example, to improve the output of a gas turbine. If the atomization is effected via pressure atomizer nozzles, it is advantageous, when the injection device is operated with a portion of the design mass flow, to admit liquid to only some of the atomizer nozzles of the injection device. The atomizer nozzles may be arranged on nozzle tubes, liquid being jointly admitted to all the atomizer nozzles arranged on a respective nozzle tube, operated in such a way that the same mass flow is injected on each side of a symmetry line. To this end, nozzle tubes may be combined to form groups, to which liquid is jointly admitted, and the tubes of a group may be arranged in mirror image to one another relative to the symmetry line.Type: GrantFiled: June 2, 2005Date of Patent: April 21, 2009Assignee: ALSTOM Technology LtdInventors: Juergen Hoffmann, Charles Raymond Matz