The invention is directed to a method for cleaning a component from powder residues of an additive layering method using a cleaning device, wherein a machine plate and the component arranged thereon are excited during a cleaning process by a vibration actuator of the cleaning device with a set resonance frequency of the machine plate to carry out a mechanical vibration. It is provided that the machine plate is excited by predefined vibration movements of the at least one vibration actuator to the predefined mechanical vibration, wherein the predefined vibration movements of the at least one vibration actuator occur in parallel to a main plane of the machine plate. The invention also relates to a cleaning device for cleaning an at least partially additively manufactured component, in particular a component of a turbomachine.
B08B 7/02 - Nettoyage par des procédés non prévus dans une seule autre sous-classe ou un seul groupe de la présente sous-classe par distorsion, battage ou vibration de la surface à nettoyer
B08B 13/00 - Accessoires ou parties constitutives, d'utilisation générale, des machines ou appareils de nettoyage
The present invention relates to a method of calibrating a thermal FEM-model of a turbomachine, the method comprising: i) creating a meta-model of the thermal FEM-model; ii) feeding, for a set of thermal variables, a set of input values to the meta-model for a calculation in the meta-model; iii) obtaining a set of output values from the calculation in the meta-model for the set of input values; iv) comparing the set of output values to measurement data of the turbomachine.
A module for a turbomachine, including a guide blade arrangement, a seal carrier that is situated radially within an inner platform of the guide blade arrangement, seal carrier walls, namely, a first seal carrier wall and a second seal carrier wall, and a sliding body as well as a connecting element. The seal carrier walls have a multipart design with respect to one another, and the second seal carrier wall is fastened to the first seal carrier wall and to the seal carrier via the connecting element. The sliding body holds the seal carrier walls at a distance from one another in such a way that they mutually axially delimit a clearance in which the guide blade arrangement engages via a radially inwardly extending guide pin. A radially inner section of the second seal carrier wall has frictional contact relative to the seal carrier.
01 - Produits chimiques destinés à l'industrie, aux sciences ainsi qu'à l'agriculture
06 - Métaux communs et minerais; objets en métal
07 - Machines et machines-outils
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
37 - Services de construction; extraction minière; installation et réparation
38 - Services de télécommunications
39 - Services de transport, emballage et entreposage; organisation de voyages
40 - Traitement de matériaux; recyclage, purification de l'air et traitement de l'eau
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Separator membranes for hydrogen fuel cells, namely, polymeric membranes in chemical form for the separation of gas Hydrogen storage systems consisting of metal containers for storing gases Generators of electricity and emergency electricity, in particular for aircraft; Fuel cell energy converters, namely, electric power generators; electric power generators based on integrated fuel cell hybrid energy converters; Parts of machines, namely, Heat exchangers and conduits for fluid and heat transfer for integrated fuel cell power generation systems and subsystems, namely, power generators; Integrated hydrogen-fuel systems comprised of heat exchangers being parts of aircraft engines, containers, valves, pumps and lines, namely, parts of machines, for propulsion systems for aircraft; Hydrogen dispensing pumps for filling stations; Parts for electrolysis machines for generating hydrogen, namely, separators and membranes for generators, circulation frames for generators, baffle plates and containers for generators, rectifier droplet separators for generators, and gas-liquid separators; Parts of machines, namely, Gas lines for discharging and discharging gas mixtures, hydrogen and water from drives for aircraft Microprocessor-based, control system comprised of microprocessors and downloadable computer software for controlling fuel cell operation; Hydrogen fuel cells; Control system, for power generating fuel cell generator modules, comprised of computer hardware and embedded operating software, valves, switches and circuits; Test stations for fuel cells; Automatic test stations for fuel cells; downloadable computer software for use in operating test stations for fuel cells; downloadable computer software for use in operating automatic test stations for fuel cells; downloadable computer software for use in operating hydrogen test stations; Fuel cells; Fuel cell stacks; Integrated fuel cell systems comprised of fuel cells; Anodes, sensor devices being temperature, humidity and pressure sensors; cathodes; Fuel cell stacks, heat and pressure sensors and electronic controls, all for integrated fuel cell power generation systems and subsystems; pressure, heat and temperature sensors; computer hardware and downloadable software for controlling the integrated hydrogen fuel system in propulsion systems for aircraft Hydrogen cleaning devices, namely, gas scrubbers; Air filters for fuel cell systems Refueling aircraft with hydrogen; Construction of power generation plants; construction project management and construction supervision in the field of energy generation equipment Electronic transmission of data for use in regulating the fuel system and the fuel cell system and distributing the relevant data to the aircraft, a ground station or an internal memory Storage of hydrogen, for example with an integrated fuel system; Distribution of hydrogen and air as fuel for fuel cells; Electricity supply through distribution of electricity; Distribution of energy; Information, advice and consultancy in relation to all of the aforesaid Power generation; Power generation services; Custom manufacture, for others, of industrial and commercial hydrogen fuel and propulsion systems; Custom manufacture, for others, of fuel cell systems and hydrogen fuel and propulsion systems; Generation of hydrogen; Custom manufacture of fuel cell systems and hydrogen fuel and propulsion systems for others; Information, advice and consultancy in relation to all of the aforesaid Engineering services in the field of the refueling, storage and use of hydrogen as fuel, the conversion of hydrogen to electricity with fuel cells and the installation and integration of such systems, including their control by means of hardware and software; Consultancy in the field of design and development of test stations for fuel cells, fuel cells, integrated hydrogen fuel and propulsion systems, and ancillary equipment; Design of industrial and commercial hydrogen fuel and propulsion systems; Technical advice, research and development and testing services in relation to electricity, propulsion energy from hydrogen and hydrogen-fueled products; Testing services in relation to fuel cells, fuel cell systems, aerospace propulsion systems and hydrogen; Design and testing of hydrogen fuel and propulsion systems and fuel cells, fuel cell systems, aerospace propulsion systems based on fuel cell technologies; Design of alternative energy systems; Technical consultancy, engineering services and project development in the field of hydrogen fuel and drive systems and fuel cells, fuel cell systems, aviation drive systems based on fuel cell technologies; Information, advice and consultancy relating to all of the aforesaid; Technical project management in the field of energy generation engineering services and project development in the field of hydrogen fuel and propulsion systems and fuel cells, fuel cell systems, aviation propulsion systems based on fuel cell technologies; Information, advice and consultancy relating to all of the aforesaid; Technical project management in the field of energy generation engineering services and project development in the field of hydrogen fuel and propulsion systems and fuel cells, fuel cell systems, aviation propulsion systems based on fuel cell technologies; Information, advice and consultancy relating to all of the aforesaid; Technical project management in the field of energy generation
01 - Produits chimiques destinés à l'industrie, aux sciences ainsi qu'à l'agriculture
06 - Métaux communs et minerais; objets en métal
07 - Machines et machines-outils
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
37 - Services de construction; extraction minière; installation et réparation
38 - Services de télécommunications
39 - Services de transport, emballage et entreposage; organisation de voyages
40 - Traitement de matériaux; recyclage, purification de l'air et traitement de l'eau
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Separator membranes for hydrogen fuel cells, namely, polymeric membranes in chemical form for the separation of gas Hydrogen storage systems consisting of metal containers for storing gases Generators of electricity and emergency electricity, in particular for aircraft; Fuel cell energy converters, namely, electric power generators; electric power generators based on integrated fuel cell hybrid energy converters; Parts of machines, namely, Heat exchangers and conduits for fluid and heat transfer for integrated fuel cell power generation systems and subsystems, namely, power generators; Integrated hydrogen-fuel systems comprised of heat exchangers being parts of aircraft engines, containers, valves, pumps and lines, namely, parts of machines, for propulsion systems for aircraft; Hydrogen dispensing pumps for filling stations; Parts for electrolysis machines for generating hydrogen, namely, separators and membranes for generators, circulation frames for generators, baffle plates and containers for generators, rectifier droplet separators for generators, and gas-liquid separators; Parts of machines, namely, Gas lines for discharging and discharging gas mixtures, hydrogen and water from drives for aircraft Microprocessor-based, control system comprised of microprocessors and downloadable computer software for controlling fuel cell operation; Hydrogen fuel cells; Control system, for power generating fuel cell generator modules, comprised of computer hardware and embedded operating software, valves, switches and circuits; Test stations for fuel cells; Automatic test stations for fuel cells; downloadable computer software for use in operating test stations for fuel cells; downloadable computer software for use in operating automatic test stations for fuel cells; downloadable computer software for use in operating hydrogen test stations; Fuel cells; Fuel cell stacks; Integrated fuel cell systems comprised of fuel cells; Anodes, sensor devices being temperature, humidity and pressure sensors; cathodes; Fuel cell stacks, heat and pressure sensors and electronic controls, all for integrated fuel cell power generation systems and subsystems; pressure, heat and temperature sensors; computer hardware and downloadable software for controlling the integrated hydrogen fuel system in propulsion systems for aircraft Hydrogen cleaning devices, namely, gas scrubbers; Air filters for fuel cell systems Refueling aircraft with hydrogen; Construction of power generation plants; construction project management and construction supervision in the field of energy generation equipment Electronic transmission of data for use in regulating the fuel system and the fuel cell system and distributing the relevant data to the aircraft, a ground station or an internal memory Storage of hydrogen, for example with an integrated fuel system; Distribution of hydrogen and air as fuel for fuel cells; Electricity supply through distribution of electricity; Distribution of energy; Information, advice and consultancy in relation to all of the aforesaid Power generation; Power generation services; Custom manufacture, for others, of industrial and commercial hydrogen fuel and propulsion systems; Custom manufacture, for others, of fuel cell systems and hydrogen fuel and propulsion systems; Generation of hydrogen; Custom manufacture of fuel cell systems and hydrogen fuel and propulsion systems for others; Information, advice and consultancy in relation to all of the aforesaid Engineering services in the field of the refueling, storage and use of hydrogen as fuel, the conversion of hydrogen to electricity with fuel cells and the installation and integration of such systems, including their control by means of hardware and software; Consultancy in the field of design and development of test stations for fuel cells, fuel cells, integrated hydrogen fuel and propulsion systems, and ancillary equipment; Design of industrial and commercial hydrogen fuel and propulsion systems; Technical advice, research and development and testing services in relation to electricity, propulsion energy from hydrogen and hydrogen-fueled products; Testing services in relation to fuel cells, fuel cell systems, aerospace propulsion systems and hydrogen; Design and testing of hydrogen fuel and propulsion systems and fuel cells, fuel cell systems, aerospace propulsion systems based on fuel cell technologies; Design of alternative energy systems; Technical consultancy, engineering services and project development in the field of hydrogen fuel and drive systems and fuel cells, fuel cell systems, aviation drive systems based on fuel cell technologies; Information, advice and consultancy relating to all of the aforesaid; Technical project management in the field of energy generation engineering services and project development in the field of hydrogen fuel and propulsion systems and fuel cells, fuel cell systems, aviation propulsion systems based on fuel cell technologies; Information, advice and consultancy relating to all of the aforesaid; Technical project management in the field of energy generation engineering services and project development in the field of hydrogen fuel and propulsion systems and fuel cells, fuel cell systems, aviation propulsion systems based on fuel cell technologies; Information, advice and consultancy relating to all of the aforesaid; Technical project management in the field of energy generation
6.
METHOD FOR AVOIDING RESONANCE DAMAGE DURING CLEANING OF AN AT LEAST PARTLY ADDITIVELY MANUFACTURED COMPONENT, CLEANING DEVICE, MASS ELEMENT, AND SYSTEM
The invention is directed to a method for cleaning powder residues of an additive layer build-up method away from an at least partly additively manufactured component by a cleaning device, wherein a machine plate and the component arranged thereon are excited to mechanical oscillation during a cleaning process by a vibration actuator of the cleaning device with a set resonant frequency of the machine plate. According to the invention, before the cleaning process is carried out, a resonant frequency of the machine plate is set to the set resonant frequency by an arrangement of a mass element on a securing element of the machine plate.
The present invention relates to a method for inspecting a component, in particular a component of a turbomachine (1), including the steps of: capturing (S2) at least one X-ray or CT image of the component (10) using an image-capturing device (20); providing (S21) metadata about the component (10), the metadata including, in particular, a component type, a running time of the component (10), a number of remaining life cycles, and/or a repair history; classifying, by a machine learning system (30), the component (10) into a “serviceable” category or a “non-serviceable” category based on the image captured by the image-capturing device (20) and the provided metadata.
F01D 21/00 - Arrêt des "machines" ou machines motrices, p.ex. dispositifs d'urgence; Dispositifs de régulation, de commande ou de sécurité non prévus ailleurs
G06V 10/82 - Dispositions pour la reconnaissance ou la compréhension d’images ou de vidéos utilisant la reconnaissance de formes ou l’apprentissage automatique utilisant les réseaux neuronaux
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
37 - Services de construction; extraction minière; installation et réparation
38 - Services de télécommunications
39 - Services de transport, emballage et entreposage; organisation de voyages
40 - Traitement de matériaux; recyclage, purification de l'air et traitement de l'eau
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
aus metallischen Behältern zur Speicherung von Gasen bestehende Speichersysteme für Wasserstoff. Generatoren [Strom-, Notstrom-], insbesondere für Luftfahrzeuge; Brennstoffzellen-Energiewandler [Stromgeneratoren]; Stromgeneratoren basierend auf Integrierten Brennstoffzellen- Hybrid-Energiewandlern; Wärmetauscher und Leitungen zur Flüssigkeits- und Wärmeübertragung [Maschinenteile] für Integrierte Brennstoffzellen-Energieerzeugungssysteme und - subsysteme [Stromgeneratoren]; Teile und Zusatzteile für alle vorstehend genannten Waren; aus Behältern, Wärmetauschern, Ventilen, Pumpen, Leitungen [Maschinenteile] bestehende integrierte Wasserstofftreibstoffsysteme für Antriebe von Luftfahrzeugen; Wasserstoffzapfsäulen für Tankstellen; Teile für Wasserstoffgeneratoren, nämlich Abscheider und Membranen für Generatoren, Zirkulationsgerüste für Generatoren, Prallbleche und Behälter für Generatoren, Gleichrichter- Tropfenabscheider für Generatoren, Gas-Flüssigkeitsabscheider; Gasleitungen [Maschinenteile] zum Abführen und Ablassen von Gasgemischen, Wasserstoff und Wasser aus Antrieben für Luftfahrzeuge. Integrierte Brennstoffzellen-Energieerzeugungs- und -subsysteme, insbesondere für Luftfahrtantriebe; Wasserstoff- Brennstoffzellen; Stromerzeugende Brennstoffzellengeneratormodule; Steuerungen einschließlich Hardware und Software, Ventile, Schalter und Schaltungen für die vorstehend genannten Waren; Prüfstationen für Brennstoffzellen; Automatische Prüfstationen für Brennstoffzellen; Computersoftware zur Verwendung in Prüfstationen für Brennstoffzellen; Computersoftware für automatische Prüfstationen für Brennstoffzellen; Computersoftware für Wasserstoffprüfstationen; Brennstoffzellen; Brennstoffzellen-Stromsysteme; Brennstoffzellenstapel; Integrierte Brennstoffzellensysteme; Anoden, Sensorik-Geräte, Kathoden, Abscheider Membranen für Wasserstoffbrennstoffzellen; Wasserstoff-Stromspeichersysteme; Teile und Zubehör für alle vorgenannten Waren; Brennstoffzellenstapel, Sensoren und elektronische Steuerungen für Integrierte Brennstoffzellen-Energieerzeugungssysteme und -subsysteme; Sensoren, Hardware und Software zur Regelung des integrierten Wasserstofftreibstoffsystems in Antrieben für Luftfahrzeuge. Wasserstoffreinigungsgeräte; Gleichrichter-Tropfenabscheider; Teile und Bestandteile aller vorstehend genannten Waren; Luftfilter für Brennstoffzellensysteme. Betanken von Luftfahrzeugen mit Wasserstoff; Bau von Energieerzeugungsanlagen; Projektmanagement im Bauwesen [Bauaufsicht] im Bereich von Anlagen zur Energieerzeugung. Elektronische Übermittlung von Daten mit dem Ziel, das Treibstoffsystem und das Brennstoffzellensystem zu Regeln und die relevanten Daten an das Flugzeug, eine Bodenstation oder einen internen Speicher zu verteilen. Befüllen von Behältern zur Verwendung in Wasserstofftreibstoffsystemen für Luftfahrzeuge; Speicherung von Wasserstoff, beispielsweise mit einem integrierten Treibstoffsystem; Verteilung von Wasserstoff und Luft als Treibstoff für Brennstoffzellen; Verteilung von Fluiden zur Verteilung und Ableitung von Wärme; Stromversorgung durch Verteilung von Elektrizität; Verteilung von Energie; Information und Beratung in Bezug auf alles vorstehend Genannte. Stromerzeugung; Energieerzeugungsdienste; Kundenspezifische Fertigung von industriellen und kommerziellen Wasserstofftreibstoff- und -antriebssystemen; Kundenspezifische Fertigung von Brennstoffzellensystemen und Wasserstofftreibstoff- und -antriebssystemen; Erzeugung von Wasserstoff; Kundenspezifische Anfertigung von Brennstoffzellensystemen und Wasserstofftreibstoff- und -antriebssystemen für Dritte; Information und Beratung in Bezug auf alles vorstehend Genannte. Ingenieurtechnische Dienstleistungen auf dem Gebiet der Betankung, Speicherung und Verwendung von Wasserstoff als Treibstoff, der Wandlung von Wasserstoff zu Strom mit Brennstoffzellen und die Installation und Integration solcher Systeme einschließlich deren Regelung durch Hardware und Software; Beratung auf dem Gebiet Entwurf und Entwicklung von Prüfstationen für Brennstoffzellen, Brennstoffzellen, integrierten Wasserstofftreibstoff- und -antriebssystemen und Zusatzausrüstung; Entwurf von industriellen und kommerziellen Wasserstofftreibstoff- und -antriebssystemen; Technische Beratung, Forschung und Entwicklung und Prüfungsleistungen in Bezug auf Strom/Antriebsenergie aus Wasserstoff und mit Wasserstoff betriebene Erzeugnisse; Prüfleistungen in Bezug auf Brennstoffzellen, Brennstoffzellensysteme, [Luftfahrt-] Antriebssysteme und Wasserstoff; Entwurf, Prüfung von Wasserstofftreibstoff- und -antriebssystemen und Brennstoffzellen, Brennstoffzellensysteme, [Luftfahrt-] Antriebssysteme basierend auf Brennstoffzelltechnologien; Entwurf von alternativen Energiesystemen; Technische Beratung, ingenieurtechnische Dienstleistungen und Projektentwicklung im Bereich Wasserstofftreibstoff- und -antriebssystemen und Brennstoffzellen, Brennstoffzellensysteme, [Luftfahrt-]Antriebssysteme basierend auf Brennstoffzelltechnologien; Information und Beratung in Bezug auf alles vorstehend Genannte; Technisches Projektmanagement im Bereich Energieerzeugung.
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
37 - Services de construction; extraction minière; installation et réparation
38 - Services de télécommunications
39 - Services de transport, emballage et entreposage; organisation de voyages
40 - Traitement de matériaux; recyclage, purification de l'air et traitement de l'eau
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
aus metallischen Behältern zur Speicherung von Gasen bestehende Speichersysteme für Wasserstoff. Generatoren [Strom-, Notstrom-], insbesondere für Luftfahrzeuge; Brennstoffzellen-Energiewandler [Stromgeneratoren]; Stromgeneratoren basierend auf Integrierten Brennstoffzellen- Hybrid-Energiewandlern; Wärmetauscher und Leitungen zur Flüssigkeits- und Wärmeübertragung [Maschinenteile] für Integrierte Brennstoffzellen-Energieerzeugungssysteme und - subsysteme [Stromgeneratoren]; Teile und Zusatzteile für alle vorstehend genannten Waren; aus Behältern, Wärmetauschern, Ventilen, Pumpen, Leitungen [Maschinenteile] bestehende integrierte Wasserstofftreibstoffsysteme für Antriebe von Luftfahrzeugen; Wasserstoffzapfsäulen für Tankstellen; Teile für Wasserstoffgeneratoren, nämlich Abscheider und Membranen für Generatoren, Zirkulationsgerüste für Generatoren, Prallbleche und Behälter für Generatoren, Gleichrichter- Tropfenabscheider für Generatoren, Gas-Flüssigkeitsabscheider; Gasleitungen [Maschinenteile] zum Abführen und Ablassen von Gasgemischen, Wasserstoff und Wasser aus Antrieben für Luftfahrzeuge. Integrierte Brennstoffzellen-Energieerzeugungs- und -subsysteme, insbesondere für Luftfahrtantriebe; Wasserstoff- Brennstoffzellen; Stromerzeugende Brennstoffzellengeneratormodule; Steuerungen einschließlich Hardware und Software, Ventile, Schalter und Schaltungen für die vorstehend genannten Waren; Prüfstationen für Brennstoffzellen; Automatische Prüfstationen für Brennstoffzellen; Computersoftware zur Verwendung in Prüfstationen für Brennstoffzellen; Computersoftware für automatische Prüfstationen für Brennstoffzellen; Computersoftware für Wasserstoffprüfstationen; Brennstoffzellen; Brennstoffzellen-Stromsysteme; Brennstoffzellenstapel; Integrierte Brennstoffzellensysteme; Anoden, Sensorik-Geräte, Kathoden, Abscheider Membranen für Wasserstoffbrennstoffzellen; Wasserstoff-Stromspeichersysteme; Teile und Zubehör für alle vorgenannten Waren; Brennstoffzellenstapel, Sensoren und elektronische Steuerungen für Integrierte Brennstoffzellen-Energieerzeugungssysteme und -subsysteme; Sensoren, Hardware und Software zur Regelung des integrierten Wasserstofftreibstoffsystems in Antrieben für Luftfahrzeuge. Wasserstoffreinigungsgeräte; Gleichrichter-Tropfenabscheider; Teile und Bestandteile aller vorstehend genannten Waren; Luftfilter für Brennstoffzellensysteme. Betanken von Luftfahrzeugen mit Wasserstoff; Bau von Energieerzeugungsanlagen; Projektmanagement im Bauwesen [Bauaufsicht] im Bereich von Anlagen zur Energieerzeugung. Elektronische Übermittlung von Daten mit dem Ziel, das Treibstoffsystem und das Brennstoffzellensystem zu Regeln und die relevanten Daten an das Flugzeug, eine Bodenstation oder einen internen Speicher zu verteilen. Befüllen von Behältern zur Verwendung in Wasserstofftreibstoffsystemen für Luftfahrzeuge; Speicherung von Wasserstoff, beispielsweise mit einem integrierten Treibstoffsystem; Verteilung von Wasserstoff und Luft als Treibstoff für Brennstoffzellen; Verteilung von Fluiden zur Verteilung und Ableitung von Wärme; Stromversorgung durch Verteilung von Elektrizität; Verteilung von Energie; Information und Beratung in Bezug auf alles vorstehend Genannte. Stromerzeugung; Energieerzeugungsdienste; Kundenspezifische Fertigung von industriellen und kommerziellen Wasserstofftreibstoff- und -antriebssystemen; Kundenspezifische Fertigung von Brennstoffzellensystemen und Wasserstofftreibstoff- und -antriebssystemen; Erzeugung von Wasserstoff; Kundenspezifische Anfertigung von Brennstoffzellensystemen und Wasserstofftreibstoff- und -antriebssystemen für Dritte; Information und Beratung in Bezug auf alles vorstehend Genannte. Ingenieurtechnische Dienstleistungen auf dem Gebiet der Betankung, Speicherung und Verwendung von Wasserstoff als Treibstoff, der Wandlung von Wasserstoff zu Strom mit Brennstoffzellen und die Installation und Integration solcher Systeme einschließlich deren Regelung durch Hardware und Software; Beratung auf dem Gebiet Entwurf und Entwicklung von Prüfstationen für Brennstoffzellen, Brennstoffzellen, integrierten Wasserstofftreibstoff- und -antriebssystemen und Zusatzausrüstung; Entwurf von industriellen und kommerziellen Wasserstofftreibstoff- und -antriebssystemen; Technische Beratung, Forschung und Entwicklung und Prüfungsleistungen in Bezug auf Strom/Antriebsenergie aus Wasserstoff und mit Wasserstoff betriebene Erzeugnisse; Prüfleistungen in Bezug auf Brennstoffzellen, Brennstoffzellensysteme, [Luftfahrt-] Antriebssysteme und Wasserstoff; Entwurf, Prüfung von Wasserstofftreibstoff- und -antriebssystemen und Brennstoffzellen, Brennstoffzellensysteme, [Luftfahrt-] Antriebssysteme basierend auf Brennstoffzelltechnologien; Entwurf von alternativen Energiesystemen; Technische Beratung, ingenieurtechnische Dienstleistungen und Projektentwicklung im Bereich Wasserstofftreibstoff- und -antriebssystemen und Brennstoffzellen, Brennstoffzellensysteme, [Luftfahrt-] Antriebssysteme basierend auf Brennstoffzelltechnologien; Information und Beratung in Bezug auf alles vorstehend Genannte; Technisches Projektmanagement im Bereich Energieerzeugung.
10.
GEARED TURBOFAN LOW-PRESSURE TURBINE WITH FLAT HUB
A geared turbofan engine includes a plurality of turbine stages, wherein for each stage (i) of the turbine, an inner radius Ri has a maximum deviation between +1.5% and −3% as compared to the average inner radius of the inner blade platforms of the plurality of stages. The engine further includes a fan, the fan coupled to the turbine stages via a gear.
F02K 3/06 - Ensembles fonctionnels comportant une turbine à gaz entraînant un compresseur ou un ventilateur soufflant dans lesquels une partie du fluide énergétique passe en dehors de la turbine et de la chambre de combustion l'ensemble fonctionnel comprenant des soufflantes carénées, c. à d. des soufflantes à fort débit volumétrique sous basse pression pour augmenter la poussée, p.ex. du type à double flux comprenant une soufflante avant
The invention relates to an aircraft fuel cell propulsion unit (10) comprising a fuel cell system (12) that includes at least one anode (14), at least one cathode (15) and a process gas device (17) for supplying fuel and ambient air to the anode (14) and the cathode (15) and evacuating spent process gases, further comprising a ram air duct (21) through which compressed ram air (22) flows, and a heat exchanger (20) which is located in the ram air duct (21) and is designed to give off heat generated by the fuel cell system (12) to the environment.
H01M 8/04029 - Dispositions auxiliaires, p.ex. pour la commande de la pression ou pour la circulation des fluides relatives à l’échange de chaleur Échange de chaleur par des liquides
H01M 8/04119 - Dispositions pour la commande des paramètres des réactifs, p.ex. de la pression ou de la concentration des réactifs gazeux avec apport simultané ou évacuation simultanée d’électrolyte; Humidification ou déshumidification
12.
BRAZE ALLOY MIX FOR APPLICATION IN A METHOD FOR BRAZING A COMPONENT, ADDITIVE ALLOY, BRAZING METHOD, AND COMPONENT
The invention relates to a braze alloy mix for application in a method for brazing a component that has a nickel-based superalloy as base material, wherein the braze alloy mix comprises the following powders in a predetermined mixing ratio: a powder of a first braze alloy, a powder of a second braze alloy, a powder of a third braze alloy, and a powder of an additive alloy.
B23K 35/30 - Emploi de matériaux spécifiés pour le soudage ou le brasage dont le principal constituant fond à moins de 1550 C
C22C 19/07 - Alliages à base de nickel ou de cobalt, seuls ou ensemble à base de cobalt
C22C 19/05 - Alliages à base de nickel ou de cobalt, seuls ou ensemble à base de nickel avec du chrome
B23K 35/02 - Baguettes, électrodes, matériaux ou environnements utilisés pour le brasage, le soudage ou le découpage caractérisés par des propriétés mécaniques, p.ex. par la forme
A cooling system (10) for an aircraft is provided, in particular for cooling at least one element of an electric propulsion system (24) of the aircraft, the cooling system (10) being at least partially disposed within a wing (12) of the aircraft and including at least two heat exchangers (16, 42) interconnected via at least one cooling circuit (11), the first heat exchanger (16) being operatively connected to the at least one element to be cooled of the electric propulsion system (24), and the second heat exchanger (42) being disposed within at least one wing (12) and being operatively connected to an upper and/or lower wing shell (46, 48) of the wing (12). A method for cooling at least one element of an electric propulsion system (24) of an aircraft is also provided.
B64D 33/08 - Aménagement sur les aéronefs des éléments ou des auxiliaires des ensembles fonctionnels de propulsion, non prévu ailleurs des systèmes de refroidissement des ensembles fonctionnels de propulsion
B60L 58/33 - Procédés ou agencements de circuits pour surveiller ou commander des batteries ou des piles à combustible, spécialement adaptés pour des véhicules électriques pour la surveillance et la commande des piles à combustible pour la commande de la température des piles à combustible, p.ex. en commandant la charge électrique par refroidissement
H01M 8/04029 - Dispositions auxiliaires, p.ex. pour la commande de la pression ou pour la circulation des fluides relatives à l’échange de chaleur Échange de chaleur par des liquides
The present invention relates to a propulsion system (1) for an aircraft (50), having a first propulsion unit (11) which has a first power generator (21) for outputting a first electric power (P1) and a first thrust unit (31) connected to the first power generator (21) to generate thrust from the first electric power (P1), and a second propulsion unit (12) which has a second power generator (22) for outputting a second electric power (P2) and a second thrust unit (32) connected to the second power generator (22) to generate thrust from the second electric power (P2), and a connecting device (40), which, in the event of a fault of the first propulsion unit (11), is designed to connect the first thrust unit (31) or the first power generator (21) to the second propulsion unit (12) for supply.
B64D 27/24 - Aéronefs caractérisés par le type ou la position des groupes moteurs utilisant la vapeur, l'électricité ou l'énergie de ressorts
B64D 27/02 - Aéronefs caractérisés par le type ou la position des groupes moteurs
15.
HOUSING FLANGE FOR AN ELECTRIC MOTOR HOUSING OF AN ELECTRIC MOTOR, ASSEMBLY COMPRISING A HOUSING FLANGE AND STATOR TEETH, AND METHOD FOR MANUFACTURING A HOUSING FLANGE
The invention relates to a housing flange (1) for an electric motor housing (2) of an electric motor (3), in particular for an aircraft engine, the housing flange (1) comprising a forged and/or cast round base plate (4), the base plate (4) comprising a through-opening (5) in its centre for the passage of a shaft (6) of a rotor (8) of the electric motor (3). According to the invention, a housing coolant distribution body (10), which is additively manufactured at least in some regions, is located on a first base plate main surface (9) of the base plate (4), the housing coolant distribution body (10) being in the form of a hollow cylinder, the cylinder axis (11) of which is oriented so as to be centred with respect to the through-opening (5), and the housing coolant distribution body (10) comprising one or more coolant channels (16) for the passage of a coolant.
H02K 5/20 - Enveloppes ou enceintes caractérisées par leur configuration, leur forme ou leur construction avec des canaux ou des conduits pour la circulation d'un agent de refroidissement
H02K 9/19 - Dispositions de refroidissement ou de ventilation pour machines avec enveloppe fermée et circuit fermé de refroidissement utilisant un agent de refroidissement liquide, p.ex. de l'huile
A method for automatically generating an optimized maintenance plan for a fleet of aircraft engines, includes the steps of: acquiring input data on a plurality of engines and providing an existing initial maintenance plan or creating an initial maintenance plan based on the acquired input data. A total maintenance effort for the fleet resulting in an application of the initial maintenance plan is then determined. Next, the engines are sorted into a defined order according to at least one criterion and at least one optimization strategy or heuristic stored as an algorithm in a computer program is applied to each of the engines in the defined order. Next, an optimized maintenance plan for the engines or output data comprising an estimated total maintenance effort of the optimized maintenance plan is output.
A rotor blade (20) for a rotor blade assembly (10) of a turbomachine (1) is provided, having an inner rotor blade platform (40) which extends axially from the rotor blade (20) with respect to a longitudinal turbomachine axis (2) and has two opposite circumferential end faces (41) and a free axial end (42) whose cross section is radially inwardly and radially outwardly bounded by circular arcs of two concentric circles. The inner rotor blade platform (40) has a cross section of connection (45) with the rotor blade (20) which is bounded radially inwardly by an inner connecting line (46) and radially outwardly by an outer connecting line (47). Each of the connecting lines (46, 47) has a central portion (61) having a convex curvature.
The present invention relates to a fuel cell stack (1), having fuel cells (2) arranged successively in a stacking direction (3), an inner covering element (11) which follows the fuel cells (2) in the stacking direction (3), and an outer covering element (12) which follows the inner covering element (11) in the stacking direction (3) and holds the inner covering element and the fuel cells (2) together in a braced state, wherein the outer covering element (12) forms at least a first and a second spring element (15.1, 15.2) perpendicularly to the stacking direction (3), wherein each of the spring elements (15.1, 15.2) forms an arc profile (16.1, 16.2) which is convexly curved in the direction of the inner covering element (11), and the respective arc profile (16.1, 16.2) is separately suspended, and wherein the inner covering element (11) forms a respective receptacle (40.1, 40.2) for the spring elements (15.1, 15.2), each receptacle being concavely curved in the direction of the outer covering element (12) and accommodating the respective convexly curved arc profile (16.1, 16.2).
The invention relates to a fuel cell stack (1) with fuel cells (2) arranged one after another in a stacking direction (3), a cover element (5) and a hydraulic compensation element (6), wherein the hydraulic compensation element (6) and the cover element (5) are arranged following the fuel cells (2) in the stacking direction (3), wherein the cover element (5) holds the fuel cells (2) together in a state (21) in which it is tensioned against the fuel cells (2), and is curved towards the fuel cells (2) in an untensioned state (20), and wherein the hydraulic compensation element (6) is/can be applied with a fluid (11) in order to adjust a pressing force (8) transferred to the fuel cells (2) in the tensioned state (21).
The invention is directed to an engine that has a fan, a compressor with a high-pressure compressor, and a combustion chamber. The high-pressure compressor of the engine has a mean stage pressure ratio and an overall pressure ratio formed between the fan and the combustion chamber.
F02C 3/06 - Ensembles fonctionnels de turbines à gaz caractérisés par l'utilisation de produits de combustion comme fluide de travail ayant une turbine entraînant un compresseur le compresseur ne comprenant que des étages axiaux
The invention relates to a compressor for an engine, wherein the compressor has compressor stages arranged in succession in a flow direction of the compressor and each compressor stage has a rotating blade cascade and a guide vane cascade arranged downstream of the rotating blade cascade and the rotating blade cascade and the guide vane cascade each have an aspect ratio.
F02C 3/06 - Ensembles fonctionnels de turbines à gaz caractérisés par l'utilisation de produits de combustion comme fluide de travail ayant une turbine entraînant un compresseur le compresseur ne comprenant que des étages axiaux
A method (100) for operating an aircraft-engine turbomachine (1) having a compressor (3), through which a gas flow (6) passes in a flow direction, a combustion chamber (4), a turbine (5) and a heat exchanger (8) downstream of the turbine (5), wherein the heat exchanger (8) generates steam from water by means of energy from the gas flow (6) and the steam is fed, in particular together with fuel, into the gas flow (6) for burning in the combustion chamber (4).
The invention relates to a propulsion system (1) for an aircraft, comprising a gas turbine (2) having a core flow channel (10), wherein a compressor (12), a combustion chamber (13), a first turbine, in particular a high-pressure turbine (14), for driving the compressor (12), and a second turbine, in particular a low-pressure turbine (15) are arranged in the core flow channel (10) in the flow direction, and comprising a water system (30) for providing water via recovery from an exhaust gas from the core flow channel (10).
F02C 3/30 - Addition d'eau, de vapeur ou d'autres fluides aux composants combustibles ou au fluide de travail avant l'échappement de la turbine
F02C 7/141 - Refroidissement des ensembles fonctionnels des fluides dans l'ensemble fonctionnel du fluide de travail
F02K 3/06 - Ensembles fonctionnels comportant une turbine à gaz entraînant un compresseur ou un ventilateur soufflant dans lesquels une partie du fluide énergétique passe en dehors de la turbine et de la chambre de combustion l'ensemble fonctionnel comprenant des soufflantes carénées, c. à d. des soufflantes à fort débit volumétrique sous basse pression pour augmenter la poussée, p.ex. du type à double flux comprenant une soufflante avant
F02K 3/115 - Chauffage du flux dérivé à l'aide d'un échange indirect de chaleur
The invention relates to a heat exchanger (10) for cooling a hot fluid, in particular an exhaust gas or a fuel-cell cooling fluid, by means of a cooling fluid which is at a lower temperature than the hot fluid and which has a high flow velocity, comprising a high-temperature grille (30) for guiding the hot fluid and a low-temperature grille (20) for guiding the cooling fluid. According to the invention, a heat exchanger which can improve a transfer of heat despite a high-velocity inflowing fluid and/or which can reduce the required installation space is created in that a diffuser region (24) for decelerating the cooling fluid is arranged in at least one first low-temperature channel (21), through which the cooling fluid flows, of the low-temperature grille (20), and in that the diffuser region (24) and a first high-temperature channel (31), through which the hot fluid flows, of the high-temperature grille (30) have at least one shared wall (40) for heat transfer.
F28F 1/02 - Eléments tubulaires de section transversale non circulaire
F28F 13/08 - Dispositions pour modifier le transfert de chaleur, p.ex. accroissement, diminution en affectant le mode d'écoulement des sources de potentiel calorifique en faisant varier la section transversale des canaux d'écoulement
F28D 21/00 - Appareils échangeurs de chaleur non couverts par l'un des groupes
F28F 9/02 - Boîtes de distribution; Plaques d'extrémité
A propulsion system (1) for an aircraft, comprising a gas turbine (2), with a main flow duct (10) and a bypass flow duct (20), wherein the gas turbine (2) has an outer housing (5) which surrounds the bypass flow duct (20) on the outside. The core flow of the gas turbine (2) is routed radially to the outside and at least in portions through the outer housing (5) or along the outer housing (5).
The invention relates to a propulsion system (1) for an aircraft, comprising a gas turbine (2) with a main flow channel (10) and a bypass flow channel (20), a water system (30) and a steam system (40), wherein the water system (30) comprises at least one water separation unit (31) and a condenser (21) with at least one condenser module (23), wherein the gas turbine (2) has a housing (5, 6), in particular an outer housing (5) bordering the bypass flow channel (20) on the outside, and/or an inner housing (6) comprising the main flow channel (10). A propulsion system, with a water and steam system that is better integrated into the gas turbine, is achieved in that the water separation unit (13) is arranged in and/or on the outer housing (5), in particular in the cowling, and/or the at least one condenser module (23) is arranged in the bypass flow channel (20) and has exhaust gas channels (26) which direct an exhaust gas from the main flow channel (10), via the the bypass flow channel (20) and in and/or through the outer housing (5).
F02C 3/30 - Addition d'eau, de vapeur ou d'autres fluides aux composants combustibles ou au fluide de travail avant l'échappement de la turbine
F02K 3/115 - Chauffage du flux dérivé à l'aide d'un échange indirect de chaleur
F02C 7/141 - Refroidissement des ensembles fonctionnels des fluides dans l'ensemble fonctionnel du fluide de travail
F02K 3/06 - Ensembles fonctionnels comportant une turbine à gaz entraînant un compresseur ou un ventilateur soufflant dans lesquels une partie du fluide énergétique passe en dehors de la turbine et de la chambre de combustion l'ensemble fonctionnel comprenant des soufflantes carénées, c. à d. des soufflantes à fort débit volumétrique sous basse pression pour augmenter la poussée, p.ex. du type à double flux comprenant une soufflante avant
27.
EXHAUST GAS TREATMENT APPARATUS FOR AN AIRCRAFT ENGINE
The invention relates to an exhaust gas treatment apparatus (1) for an aircraft engine (2), the exhaust gas treatment apparatus comprising an exhaust gas channel (7), through which an exhaust gas of the aircraft engine (2) can flow, a first cooling device (8) and a second cooling device (13) for cooling an exhaust gas flow (6) flowing through the exhaust gas channel (7), the second cooling device (13) being located downstream of the first cooling device (8) with respect to the exhaust gas flow (6). The invention also relates to a method for operating such a cooling device.
F02C 7/16 - Refroidissement des ensembles fonctionnels caractérisé par l'agent refroidisseur
F01D 25/30 - Têtes d'évacuation, chambres ou parties analogues
F01N 3/04 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour refroidir ou pour enlever les constituants solides des gaz d'échappement au moyen de liquides
28.
GUIDE VANE DEVICE, MOUNTING TOOL, AS WELL AS TURBOMACHINE AND METHOD FOR MOUNTING AND DISMANTLING THE GUIDE VANE DEVICE
The invention is directed to a guide vane device for a guide vane adjustment of a turbomachine, comprising a guide vane, which has a shaft extending along an adjustment axis of the guide vane, as well as an adjusting lever, which forms a connecting element for connection to an outer end of the shaft, wherein, at its outer end, the shaft has a three-dimensional front surface with at least one beveled region, the connecting element surrounds, at least in sections, the outer end of the shaft in a sleeve-like manner and is joined to the outer end in a form-fitting manner, and the guide vane device forms an interference fit between the connecting element and the outer end of the shaft.
F01D 17/16 - Organes de commande terminaux disposés sur des parties du stator faisant varier l'aire effective de la section transversale des injecteurs ou tuyères de guidage en obturant les injecteurs
An airfoil array segment for an airfoil array of a turbomachine including a platform having a platform surface and an upstream-side platform edge, as well as at least two airfoils, whose leading and trailing edges define an inter-airfoil strip, the platform surface having a trough with a bottom configured such that the bottom is a global minimum and a radial position of the trough decreases relative to a reference surface in the circumferential direction from a suction side of one of the airfoils toward the pressure side of the adjacent other airfoil toward the bottom and from there increases in the circumferential direction, at most up to the radial position of the reference surface, and a radial position of the trough decreasing relative to a reference surface axially in the downstream direction toward the bottom and from there increasing axially in the downstream direction, at most up to the radial position of the reference surface, and the platform surface reaching at most a radial position of the reference surface, the reference surface corresponding to an uncontoured platform surface.
A heat engine, in particular an aircraft engine, having a first compressor for supplying a combustion chamber of the heat engine with air and a first turbine arranged downstream of the combustion chamber for driving the first compressor, wherein the heat engine also has at least one steam supply line for supplying steam from a steam source into the combustion chamber. The heat engine also has a steam supply device, which has a second compressor and is designed to compress the working gas further by the second compressor as a function of a mass flow conducted through the steam supply line, before the working gas flows into the combustion chamber.
The invention relates to a device and a method for cooling a heat exchanger of a fuel cell of a flight propulsion drive outside of a flight phase of an aircraft. The flight propulsion drive has an air line with at least one compressor for feeding compressed air for the operation of the fuel cell. A flow amplifier is arranged in the region of the heat exchanger, and is configured to guide air onto a cooling surface of the heat exchanger, whereby thermal energy is diverted from the cooling surface of the heat exchanger.
B64D 33/08 - Aménagement sur les aéronefs des éléments ou des auxiliaires des ensembles fonctionnels de propulsion, non prévu ailleurs des systèmes de refroidissement des ensembles fonctionnels de propulsion
H01M 8/04007 - Dispositions auxiliaires, p.ex. pour la commande de la pression ou pour la circulation des fluides relatives à l’échange de chaleur
H01M 8/04111 - Dispositions pour la commande des paramètres des réactifs, p.ex. de la pression ou de la concentration des réactifs gazeux utilisant un assemblage turbine compresseur
32.
BLADE FOR A TURBOMACHINE INCLUDING BLADE TIP ARMOR AND AN EROSION PROTECTION LAYER, AND METHOD FOR MANUFACTURING SAME
blade for a turbomachine is provided. The blade at its blade tip (4) includes blade tip armor (5), and an erosion protection layer (11) above the blade tip armor. For the blade, the erosion protection layer in the area of the blade tip has a layer thickness in the range of 5 µm to 100 µm, in particular 10 µm to 50 µm.
C23C 14/06 - Revêtement par évaporation sous vide, pulvérisation cathodique ou implantation d'ions du matériau composant le revêtement caractérisé par le matériau de revêtement
C25D 15/00 - Production électrolytique ou électrophorétique de revêtements contenant des matériaux incorporés, p.ex. particules, "whiskers", fils
C25D 3/12 - Dépôt électrochimique; Bains utilisés à partir de solutions de nickel ou de cobalt
F01D 5/28 - Emploi de matériaux spécifiés; Mesures contre l'érosion ou la corrosion
C23C 14/54 - Commande ou régulation du processus de revêtement
33.
MASKING DEVICE FOR PRODUCING A MASKING STRUCTURE, METHOD AND MASKING STRUCTURE
The invention relates to a masking device (1) for producing a masking structure (2) on a turbomachine component (3) to be machined by means of a surface finishing method. The masking device (1) operates in an automated and adaptive manner and is configured to move at least one metering unit (8) of the masking device (1) along a predetermined masking zone of the component (3) by an application robot arm (14) of the masking device (1) in an application method step (S3), and thereby apply a first masking layer (37) of a masking agent (11) in the masking zone by means of the metering unit (8), and in a curing method step (S4) after completion of the application method step (S3), to irradiate the applied first masking layer at least in areas by an irradiation means of the masking device (1) in order to cure the masking agent (11) of the masking layer, and to repeat the application method step (S3) and the curing method step (S4) in order to produce further masking layers of the masking structure (2) until the masking structure (2) is completed.
B05C 5/02 - Appareillages dans lesquels un liquide ou autre matériau fluide est projeté, versé ou répandu sur la surface de l'ouvrage à partir d'un dispositif de sortie en contact, ou presque en contact, avec l'ouvrage
B05C 9/12 - Appareillages ou installations pour appliquer des liquides ou d'autres matériaux fluides aux surfaces par des moyens non prévus dans l'un des groupes , ou dans lesquels le moyen pour déposer le liquide ou autre matériau fluide n'est pas important pour appliquer un liquide ou autre matériau fluide et exécuter une opération auxiliaire l'opération auxiliaire étant exécutée après l'application
B05B 12/20 - Aménagements de commande de la distribution; Aménagements de réglage de l’aire de pulvérisation pour régler l’aire de pulvérisation Éléments de masquage, c. à d. éléments définissant des aires non revêtues sur un objet à revêtir
B05B 13/04 - Moyens pour supporter l'ouvrage; Disposition ou assemblage des têtes de pulvérisation; Adaptation ou disposition des moyens pour entraîner des pièces les têtes de pulvérisation étant déplacées au cours de l'opération
B05D 1/32 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces en utilisant des moyens pour protéger des parties de surface à ne pas recouvrir, p.ex. en se servant de stencils, d'enduits de protection
34.
EXHAUST-GAS TREATMENT DEVICE FOR AN AIRCRAFT ENGINE
The present invention relates to an exhaust-gas treatment device for an aircraft engine, comprising an exhaust-gas channel, through which an exhaust gas of the aircraft engine flows, and a first cooling unit for cooling with ambient air, characterized by a second cooling unit, which is downstream of the first cooling unit with respect to an exhaust-gas flow in the exhaust-gas channel.
F01N 3/02 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour refroidir ou pour enlever les constituants solides des gaz d'échappement
F02C 7/141 - Refroidissement des ensembles fonctionnels des fluides dans l'ensemble fonctionnel du fluide de travail
F02C 7/16 - Refroidissement des ensembles fonctionnels caractérisé par l'agent refroidisseur
35.
GUIDE VANE RING AND ROTOR BLADE RING FOR A TURBOFAN ENGINE
A guide vane ring and/or a rotor blade ring for a low-pressure turbine of an aircraft gas turbine of a turbofan engine includes a plurality of airfoils disposed consecutively in a direction of rotation. The plurality of airfoils includes a first airfoil and a second airfoil adjacent to the first airfoil in the direction of rotation. The first and second airfoils are disposed relative to each other such that a ratio e/t, viewed in a conical section, results from
a smallest free flow cross-section e taken on the pressure side of the first airfoil from its trailing edge to a suction side of the second airfoil, and
a pitch t of the airfoils, such that e/t is less than 0.31, (e/t<0.31).
F01D 9/04 - Injecteurs; Logement des injecteurs; Aubes de stator; Tuyères de guidage formant une couronne ou un secteur
F02K 3/06 - Ensembles fonctionnels comportant une turbine à gaz entraînant un compresseur ou un ventilateur soufflant dans lesquels une partie du fluide énergétique passe en dehors de la turbine et de la chambre de combustion l'ensemble fonctionnel comprenant des soufflantes carénées, c. à d. des soufflantes à fort débit volumétrique sous basse pression pour augmenter la poussée, p.ex. du type à double flux comprenant une soufflante avant
36.
GUIDE VANE ASSEMBLY FOR A TURBOMACHINE, COMPRESSOR MODULE, TURBOMACHINE, AND METHOD FOR PRODUCING A GUIDE VANE ASSEMBLY
The invention relates to a guide vane assembly for a turbomachine, comprising a guide vane, which has a guide vane airfoil; and a guide vane holder. The guide vane is mounted in the guide vane holder such that the guide vane can be moved about an axis of rotation. For this purpose, the guide vane has at least one axle element, which is inserted into the guide vane holder in such a way that an outer lateral surface of the axle element faces an inner lateral surface of the guide vane holder. A protective coating is applied to at least parts of the guide vane airfoil. A protective coating is applied to at least one of the lateral surfaces. The invention also relates to a compressor module, a turbomachine, and a method for producing a guide vane assembly.
The present invention relates to a method for testing a component by a penetrant test, in which a penetrant is introduced onto a surface of the component; at least one portion of the penetrant is removed from the surface by blasting the surface with a solid blasting material; the surface is optically detected after the blasting.
The invention relates to a machining machine (10) having at least one rotatable shaft (11), said machining machine comprising: an excitation device (13) having an actuator (14) which is designed to apply an impact excitation (α) to the rotating shaft (11); a detection device (21); an evaluation device (22); and a control device (20). According to the invention, the shaft (11) is rotated and an impact excitation (α) is applied to the rotating shaft (11) in order to generate a response vibration (γ) of the shaft (11).
An aircraft system includes, among other things, an aircraft and a gas turbine engine coupled to the aircraft. The gas turbine engine includes a propulsor section including a propulsor, a compressor section, a turbine section including a first turbine and a second turbine, and a gear reduction between the propulsor and the second turbine. The second turbine includes a number of turbine blades in each of a plurality of rows of the second turbine. The second turbine blades operating at least some of the time at a rotational speed. The number of blades and the rotational speed being such that the following formula holds true for a majority of the blade rows of the second turbine: 5500 Hz≤(number of blades×speed)/60 sec≤10000 Hz. The gas turbine engine is rated to produce 15,000 pounds of thrust or more.
F04D 29/66 - Lutte contre la cavitation, les tourbillons, le bruit, les vibrations ou phénomènes analogues; Equilibrage
F02C 3/107 - Ensembles fonctionnels de turbines à gaz caractérisés par l'utilisation de produits de combustion comme fluide de travail ayant une turbine entraînant un compresseur avec plusieurs rotors raccordés par transmission de puissance
F02K 3/04 - Ensembles fonctionnels comportant une turbine à gaz entraînant un compresseur ou un ventilateur soufflant dans lesquels une partie du fluide énergétique passe en dehors de la turbine et de la chambre de combustion l'ensemble fonctionnel comprenant des soufflantes carénées, c. à d. des soufflantes à fort débit volumétrique sous basse pression pour augmenter la poussée, p.ex. du type à double flux
G06F 30/17 - Conception mécanique paramétrique ou variationnelle
F01D 15/12 - Combinaisons avec des transmissions mécaniques
F04D 29/32 - Rotors spécialement adaptés aux fluides compressibles pour pompes à flux axial
F02C 3/04 - Ensembles fonctionnels de turbines à gaz caractérisés par l'utilisation de produits de combustion comme fluide de travail ayant une turbine entraînant un compresseur
F02K 3/06 - Ensembles fonctionnels comportant une turbine à gaz entraînant un compresseur ou un ventilateur soufflant dans lesquels une partie du fluide énergétique passe en dehors de la turbine et de la chambre de combustion l'ensemble fonctionnel comprenant des soufflantes carénées, c. à d. des soufflantes à fort débit volumétrique sous basse pression pour augmenter la poussée, p.ex. du type à double flux comprenant une soufflante avant
F01D 5/06 - Rotors à plus d'un étage axial, p.ex. du type à tambour ou à disques multiples; Leurs parties constitutives, p.ex. arbres, connections des arbres
F01D 25/24 - Carcasses d'enveloppe; Eléments de la carcasse, p.ex. diaphragmes, fixations
F02C 7/36 - Transmission de puissance entre les différents arbres de l'ensemble fonctionnel de turbine à gaz, ou entre ce dernier et l'utilisateur de puissance
F04D 25/04 - Ensembles comprenant des pompes et leurs moyens d'entraînement la pompe étant entraînée par un fluide
The invention relates to a method for processing a workpiece by means of electrochemical machining, in which i) the workpiece is introduced into a working chamber and the working chamber is closed, ii) in the working chamber, in an electrolyte fluid, material is removed from the workpiece, wherein, in addition, before the working chamber is reopened and the workpiece is taken out of the working chamber, iii) the working chamber is supplied with a fluid containing iron(II) ions as a reducing agent.
C02F 1/467 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par des procédés électrochimiques par électrolyse par désinfection électrochimique
B23H 9/10 - Usinage d'aubes de turbine ou de buses
The present invention relates to an aircraft comprising at least one wing, at least one flight propulsion drive, and a retainer, particularly an engine pylon, which interconnects the wing and the flight propulsion drive. The aircraft comprises at least one heat exchanger for cooling exhaust gas of the fight propulsion drive and/or at least one water removal channel having at least one removal apparatus for removing water from exhaust gas of the flight propulsion drive, especially after the exhaust gas has flowed through the heat exchanger. The removal apparatus is disposed on, more particularly in, the retainer or is connected to the wing by means of the retainer, and/or the flight propulsion drive is fastened to the retainer by means of at least one flight propulsion drive suspension means, and the heat exchanger is fastened, independently thereof, to the retainer by means of at least one heat exchanger suspension means.
F01N 3/02 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour refroidir ou pour enlever les constituants solides des gaz d'échappement
F02C 3/30 - Addition d'eau, de vapeur ou d'autres fluides aux composants combustibles ou au fluide de travail avant l'échappement de la turbine
F02C 7/16 - Refroidissement des ensembles fonctionnels caractérisé par l'agent refroidisseur
F02C 7/18 - Refroidissement des ensembles fonctionnels caractérisé par l'agent refroidisseur l'agent refroidisseur étant gazeux, p.ex. l'air
The invention relates to a blisk segment for a gas turbine, comprising at least one first blade having an airfoil, a leading edge, a trailing edge, a blade root, a suction side and a pressure side, a pedestal, and a first fillet having a device for influencing crack growth. The robustness of the gas turbine is improved in accordance with the invention in that, at the leading edge of the first blade, at least on the first fillet, a first surface structure is arranged and interacts with the crack-influencing device for influencing crack growth and for flow influencing.
METHOD FOR DETERMINING INDIVIDUAL VECTORS FOR OPEN-LOOP AND/OR CLOSED-LOOP CONTROL OF AT LEAST ONE ENERGY BEAM OF A LAYERING APPARATUS, AND LAYERING APPARATUS
The invention relates to a method for determining individual vectors for open-loop and/or closed-loop control of at least one energy beam of a layering apparatus, comprising at least the steps of: providing layer data characterizing at least one component layer of a component to be additively manufactured, on the basis of the layer data, determining individual vectors, according to which at least one energy beam is to be moved relative to a construction and joining zone of the layering apparatus in order to solidify a material powder selectively to the component layer, determining at least one node point of a plurality of individual vectors, and adapting at least one property of at least one individual vector of the at least one node point, the at least one property being selected from a group comprising spatial orientation, radiation sequence in relation to at least one other individual vector, and vector length.
A guide vane for arrangement in a gas duct of a turbomachine, including a guide vane blade and an outer platform which, relative to a longitudinal axis of the turbomachine, is arranged radially on an outside on the guide vane blade. The outer platform delimits the gas duct with an inner wall surface radially to the outside. The inner wall surface has a curved profile with an inflection point when viewed in an axial section, the inner wall surface having a concave curvature in a first axial section which is upstream from the inflection point with respect to a flow through the gas duct, and a convex curvature in a second axial section which is arranged downstream from the inflection point with respect to the flow through the gas duct.
F01D 17/16 - Organes de commande terminaux disposés sur des parties du stator faisant varier l'aire effective de la section transversale des injecteurs ou tuyères de guidage en obturant les injecteurs
The present invention relates to a lever for adjusting an adjustable vane of a turbomachine, wherein the lever has a fulcrum for the rotatable mounting of the lever about an axis of rotation, a first load arm with a first adjusting connection point for at least indirect connection to an adjustable vane and a first force arm with a first actuating connection point for connection to an adjusting device, wherein the lever further has a first strut, which connects the first adjusting connection point and the first actuating connection point to each other and thereby extends in an arc-shaped manner about the axis of rotation.
F01D 17/16 - Organes de commande terminaux disposés sur des parties du stator faisant varier l'aire effective de la section transversale des injecteurs ou tuyères de guidage en obturant les injecteurs
F01D 17/12 - Organes de commande terminaux disposés sur des parties du stator
F01D 9/04 - Injecteurs; Logement des injecteurs; Aubes de stator; Tuyères de guidage formant une couronne ou un secteur
46.
NICKEL ALLOY, POWDER FOR PRODUCING A NICKEL ALLOY, AND COMPONENT COMPRISING A NICKEL ALLOY
The invention relates to a nickel alloy (1), in particular for producing a component (3) for a thermal gas turbine, characterised by the following mass fractions of an alloy composition: 10% inclusive to 15% inclusive of chromium; 14% inclusive to 20% inclusive of cobalt; 3% inclusive to 8% inclusive of molybdenum; 2% inclusive to 6% inclusive of tungsten; 0.5% inclusive to 3% inclusive of niobium; 3% inclusive to 6% inclusive of aluminium; 3% inclusive to 6% inclusive of titanium; 0.1% inclusive to 0.2% inclusive of hafnium; 2% inclusive to 4% inclusive of tantalum; 0.01% inclusive to 0.1% inclusive of carbon; 0.02% inclusive to 0.1% inclusive of boron; 0.05% inclusive to 0.2% inclusive of zirconium; the remainder being formed by nickel.
A rotor blade for a gas turbine, in particular an aircraft gas turbine, including a blade root, a blade neck that adjoins the blade root in the radial direction, an airfoil that adjoins the blade neck in the radial direction, a radially outer partition wall that forms a radially inner delimiting section of an annular space of a gas turbine, an axially front partition wall and an axially rear partition wall that are connected to the radially outer partition wall so that the partition walls surround the blade neck on three sides, the partition walls protruding beyond the blade neck in the circumferential direction. For placement in a blade root receptacle of a rotor disk, the rotor blade is provided with a blade root protective plate that is situated between the blade root and the rotor disk. The blade root protective plate includes at least one sealing section that extends in the axial direction from the front partition wall to the rear partition wall, and whose radial outer side is situated opposite from the radially outer partition wall when the blade root protective plate is situated at the blade root. One or multiple ribs are situated at the blade neck for supporting the sealing section and are integrally joined to the blade neck.
A stator vane for a turbomachine, including an airfoil having a leading edge and a trailing edge, which are interconnected by a suction side and a pressure side, the airfoil extending substantially in a radial direction between an inner platform and an outer platform, wherein, when viewed in an axial direction of the turbomachine toward the trailing edge, the trailing edge extends so as to be inclined at a first angle to the pressure side radially on an outside in relation to the radial direction at a circumferential position at which the trailing edge meets the outer platform, and wherein the first angle between the trailing edge and a tangent to the outer platform at a transition from the outer platform to the trailing edge is between 72° and 84°.
F01D 9/04 - Injecteurs; Logement des injecteurs; Aubes de stator; Tuyères de guidage formant une couronne ou un secteur
49.
METHOD FOR DETECTING DEFECTS IN A COMPONENT, METHOD FOR TRAINING A MACHINE LEARNING SYSTEM, COMPUTER PROGRAM PRODUCT, COMPUTER-READABLE MEDIUM, AND SYSTEM FOR DETECTING DEFECTS IN A COMPONENT
Provided is a method for detecting defects, in particular cracks and/or pores, in a component, in particular in a component of a turbomachine, preferably in a component of an engine, the method including the following steps: applying penetrant to at least a sub-region of the component such that the penetrant penetrates into any defects, in particular cracks and/or pores, present in the component; cleaning the surface of the component of penetrant that has not penetrated into defects, in particular cracks and/or pores, of the component; capturing an image, in particular a complete image, of the component; inputting the captured image into a machine learning system trained to detect defects, in particular cracks and/or pores; and detecting defects, in particular cracks and/or pores, in the component by machine learning system on the basis of light emitted and/or reflected by the penetrant in the defects, in particular cracks and/or pores.
The invention relates to a fuel treatment device (10) for a combustion system of a turbomachine, having a vapour line (13) conducting water vapour (W), a fuel line (14) and a fuel supply device (15) by means of which fuel (B) can be supplied to water vapour (W) flowing in the vapour line (13) in order to produce a vapour-fuel mixture (G). The invention also relates to a method for operating a combustion system of a turbomachine.
F23R 3/28 - Chambres de combustion à combustion continue utilisant des combustibles liquides ou gazeux caractérisées par l'alimentation en combustible
F02C 3/30 - Addition d'eau, de vapeur ou d'autres fluides aux composants combustibles ou au fluide de travail avant l'échappement de la turbine
F23R 3/32 - Chambres de combustion à combustion continue utilisant des combustibles liquides ou gazeux caractérisées par l'alimentation en combustible comprenant des dispositifs destinés à prévaporiser le combustible tubulaires
The present invention relates to a guide vane assembly for a turbomachine, having an adjustable vane, which can be adjusted in order to alter an angle of attack, and an adjusting element, by way of which the adjustable vane can be adjusted, wherein the adjustable vane and the adjusting element are connected to each other in a connecting region, and wherein the adjustable vane and the adjusting element adjoin each other in the connecting region at a break edge.
F01D 17/16 - Organes de commande terminaux disposés sur des parties du stator faisant varier l'aire effective de la section transversale des injecteurs ou tuyères de guidage en obturant les injecteurs
52.
FUEL CELL APPARATUS, COMPRESSOR DEVICE, CONTROL DEVICE AND METHOD FOR OPERATING A CONTROL DEVICE
The invention relates to a fuel cell apparatus (1) for a main drive system of an aircraft, comprising at least one fuel cell device (2), and an air supply device (3) which is designed to feed a fluid (4) to the at least one fuel cell device (2), the air supply device (3) having a compressor device (6) which is designed to compress the fluid (4) to a predetermined mass flow and/or pressure. According to the invention, the compressor device (6) comprises a guide device (8), the guide device (8) having at least one adjustable guide element (9) which is designed to provide an aerodynamic narrowest cross section (10) of a main flow path (11) through the compressor device (6). The air supply device (3) has a control device (12) which is designed to control the guide device (8) in order to set the at least one narrowest cross section (10).
H01M 8/04111 - Dispositions pour la commande des paramètres des réactifs, p.ex. de la pression ou de la concentration des réactifs gazeux utilisant un assemblage turbine compresseur
F04D 17/02 - Pompes à flux radial spécialement adaptées aux fluides compressibles, p.ex. pompes centrifuges; Pompes hélicocentrifuges spécialement adaptées aux fluides compressibles ayant des étages non centrifuges, p.ex. centripètes
F04D 17/10 - Pompes centrifuges pour la compression ou l'épuisement
The present invention relates to a flow field plate (4) for a fuel cell (3), having a plate core (20) and a metallic base layer (25.1) that is arranged on the plate core (20) and covers same, wherein the plate core (20) is made of an aluminium material, and wherein the metallic base layer has a thickness of at least 2 μm.
H01M 8/0213 - Matériaux imperméables aux gaz contenant du carbone
H01M 8/0228 - Composites sous forme de produits en couches ou enrobés
H01M 8/0258 - Collecteurs; Séparateurs, p.ex. séparateurs bipolaires; Interconnecteurs caractérisés par la configuration des canaux, p.ex. par le champ d’écoulement du réactif ou du réfrigérant
An adjustable guide vane for a compressor, in particular a high-pressure compressor, of a gas turbine, in particular an aircraft gas turbine is described, the vane comprising a radially outer bearing section, a radially inner bearing section, and a vane section, which extends in the radial direction between the outer bearing section and the inner bearing section, wherein the outer and the inner bearing sections are designed in such a way that the adjustable guide vane can be taken up rotatably about a vane axis in the compressor, and wherein the radially inner bearing section is configured like a journal (cone-shaped) and has a lateral surface that is formed circumferentially about the vane axis, the lateral surface being of convex shape. In this way, it is provided that the radius of curvature of the convex lateral surface is at least double the maximum diameter of the bearing section.
F04D 29/56 - Moyens de guidage du fluide, p.ex. diffuseurs réglables
F01D 17/16 - Organes de commande terminaux disposés sur des parties du stator faisant varier l'aire effective de la section transversale des injecteurs ou tuyères de guidage en obturant les injecteurs
F02C 3/06 - Ensembles fonctionnels de turbines à gaz caractérisés par l'utilisation de produits de combustion comme fluide de travail ayant une turbine entraînant un compresseur le compresseur ne comprenant que des étages axiaux
A connecting structure (10) for load transfer, in particular in a gas turbine (1), including a strut (20) and at least one wall element (30) is provided. The strut (20) at one end is integrally joined to the wall element (30), and the strut (20) and the wall element (30) are enclosed by a fillet (40), at least in areas, and integrally joined to same. An elastic deformation of the involved elements of the structure during the load transfer and/or load absorption is improved in that a root section (50) that is formed by a ridge (56) and that extends from the strut (20) to the wall element (30) is situated on the fillet (40).
The invention relates to a rotor for integration in a turbomachine, with a rotor base body, wherein, on the rotor base body in a rotor outer space of the rotor, at least one blade element or airfoil is mounted, wherein the rotor base body extends in an axial direction of the rotor and comprises a connecting section, which extends in an axial direction of the rotor for connection to at least one further rotor and separates the rotor outer space from a rotor inner space of the rotor, wherein the connecting section comprises, in the axial direction, at a front side, preferably in the axial direction at a downstream-lying front side, a balancing flange, wherein the balancing flange is configured for compensating an imbalance of the rotor and extends in the radial direction in the rotor outer space, at least in sections.
A method for checking at least one subregion of a component, in particular a component of a turbomachine, including at least the steps of a) providing a blank; b) producing at least the subregion from the blank by machining the blank using at least one tool and using at least one force sensor-to record at least one force curve of at least one force acting during machining on the at least one tool; c) checking whether there is at least one deviation-of the at least one force curve from at least one predetermined target curve-of the at least one force curve, the at least one deviation-characterizing at least one material defect-contained in an unmachined segment of the subregion. A checking device for checking at least a subregion of a component is also provided.
B23Q 17/09 - Agencements sur les machines-outils pour indiquer ou mesurer pour indiquer ou mesurer la pression de coupe ou l'état de l'outil de coupe, p.ex. aptitude à la coupe, charge sur l'outil
G01N 3/40 - Recherche de la dureté ou de la dureté au rebondissement
G05B 19/418 - Commande totale d'usine, c.à d. commande centralisée de plusieurs machines, p.ex. commande numérique directe ou distribuée (DNC), systèmes d'ateliers flexibles (FMS), systèmes de fabrication intégrés (IMS), productique (CIM)
58.
METHOD FOR PRODUCING AN IMPACT-RESISTANT COMPONENT, AND CORRESPONDING IMPACT-RESISTANT COMPONENT
A method for producing an impact-resistant component, in particular a component of a turbomachine, such as an aircraft engine, and a corresponding component. The component is produced at least partially by an additive manufacturing method from a powder material in such a way that the component is formed at least in a first region from a material with a first toughness and at least in a second region from a material with a second toughness, the second toughness being greater than the first toughness, and wherein the second region is formed, at least in a part of the component, as a continuous or interrupted layer, preferably parallel to the surface of the component, at a distance from the surface of the component.
B22F 10/36 - Commande ou régulation des opérations des paramètres du faisceau d’énergie
B22F 10/32 - Commande ou régulation des opérations de l’atmosphère, p.ex. de la composition ou de la pression dans une chambre de fabrication
B22F 10/38 - Commande ou régulation des opérations pour obtenir des caractéristiques spécifiques du produit, p.ex. le lissage de la surface, la densité, la porosité ou des structures creuses
59.
METHOD AND APPARATUS FOR DETERMINING AT LEAST ONE MECHANICAL PARAMETER OF A MECHANICAL OBJECT
A method is provided including the steps: —first excitation of the object via a multifrequency signal; —detecting a first response signal of the object at one or multiple measuring points at the object; —transforming the first response signal from a time range into a frequency-dependent range; —selecting one or multiple frequencies, based on the frequency-dependent range; —second excitation of the object based on the selected frequencies; —detecting a second response signal of the object at one or multiple measuring points of the object; —ascertaining a mechanical parameter based on the second response signal.
G01H 9/00 - Mesure des vibrations mécaniques ou des ondes ultrasonores, sonores ou infrasonores en utilisant des moyens sensibles aux radiations, p.ex. des moyens optiques
G01M 15/14 - Test des moteurs à turbine à gaz ou des moteurs de propulsion par réaction
G01M 5/00 - Examen de l'élasticité des structures ou ouvrages, p.ex. fléchissement de ponts ou d'ailes d'avions
60.
ADDITIVELY MANUFACTURED INTERMEDIATE CHANNEL FOR ARRANGING BETWEEN A LOW-PRESSURE COMPRESSOR AND A HIGH-PRESSURE COMPRESSOR, AND CORRESPONDING MANUFACTURING METHOD
An intermediate duct (10) for disposition between an outlet of a low-pressure compressor and an inlet of a high-pressure compressor of a turbomachine, in particular of an aircraft engine is provided, the intermediate duct including an outer wall (2) and an inner wall (3) between which are disposed an optional exit stator ring (4) and at least one strut (12) extending radially with respect to a central axis of the intermediate duct (10). The intermediate duct (10) is at least partially manufactured by additive manufacturing. A method for manufacturing such an intermediate duct (10), and a turbomachine having such an intermediate duct (10) are also provided.
A guide blade arrangement (20) for a turbomachine (1), including a guide blade airfoil (22) and a platform (21). The guide blade airfoil (22) is situated at a side (21.1) of the platform (21) facing the gas channel, an opposite side (21.2) of the platform (21) facing away from the gas channel being contoured at least in one area (30.1, 30.2) with elevations (25) and depressions (26) that follow one another in the circumferential direction (23) in relation to a longitudinal axis (2) of the turbomachine (1), and the elevations (25) and depressions (26) at the side (21.2) facing away from the gas channel being set via a platform thickness (31), taken radially in each case, that is variable in the circumferential direction (23) and that repeatedly increases and decreases with a continuous profile.
The present invention relates to a method for testing a component, in particular an aircraft engine, comprising the steps of: determining (S40) a value of a first toleranced parameter (A1; A2) of the component; determining (S50) a value of a second toleranced parameter (E1; ...; E4) of the component; and classifying (S70) the component in a predefined quality class if this value pair lies outside of a predefined tolerance range, the upper and/or lower limit (G) of which for the second parameter depends on the first parameter, in particular linearly, in at least one first permissible value range (Ta1,1) of the first parameter.
Described is a heat-protection element (50) for a gas turbine (10), in particular an aircraft gas turbine, the heat-protection element (50) being adapted to at least partially surround a bearing chamber (60) of the gas turbine (10) and having at least one connecting portion (52) which is disposed in an axially forward region (VB) and connectable or connected by a material-to-material bond to a protective element (54) of a seal carrier, in particular a seal carrier with a carbon seal, at least one supporting portion (58) which is disposed in an axially central region (MB) and adapted to support the heat-protection element (50) radially on the bearing chamber (60), an end portion (64) which is disposed in an axially rearward region (HB) and forms a free end (66) of the heat-protection element (50) and which is configured such that the end portion surrounds (64) the bearing chamber (60) in a contactless manner.
The invention relates to an airfoil as well as to a method for producing an airfoil for a turbomachine, comprising a leading edge and a trailing edge joined to each other by a suction side and a pressure side and which, in at least one region, extends in a curved manner from an airfoil root to an airfoil tip, wherein the airfoil tip has a squealer tip, which is arranged at the airfoil tip.
F01D 5/20 - Extrémités de pales spécialement façonnées en vue d'obturer l'espace entre ces extrémités et le stator
65.
COMPRESSION SYSTEM FOR A GAS TURBINE, HIGH-PRESSURE COMPRESSOR, COMPRESSION SYSTEM COMPRISING A HIGH-PRESSURE COMPRESSOR, LOW-PRESSURE COMPRESSOR, COMPRESSION SYSTEM COMPRISING A LOW-PRESSURE COMPRESSOR, AND GAS TURBINE
The invention relates to a compression system for a gas turbine, in particular for an aircraft gas turbine, wherein the compression system comprises a flow duct. The flow duct includes cross-sectional areas that are aligned perpendicular to the axial direction along the flow duct length and have the respective predetermined sizes, where the inlet cross-sectional area has a size that is 15.3 to 16.1 times a size of the outlet cross-sectional area, and/or a cross-sectional area arranged at a distance of 40% of the flow duct length from the inlet cross-sectional area has a size that is 5.0 to 5.2 times the size of the outlet cross-sectional area.
A blade has an internal blade profile, and a jet deflection portion adjoining the internal blade profile. Each blade profile of the jet deflection portion has a center of gravity. The centers of gravity are joined by a thread line, which is a space line, starting from the internal blade profile. A total deviation of the space line in relation to the reference line is described by an nth order polynomial based on radial distance from the blade profile to a reference point. The thread line is selected and designed such that a compressive stress is produced in the region of the leading edge of the blade during operation.
Described is a rotor disk (40) for a compressor (29, 32) of a gas turbine, in particular an aircraft gas turbine (10), the rotor disk having a main body (42), at least one rotor arm (44) projecting from the main body (42) in the axial direction (AR), the rotor arm (44) having, in a sectional view taken in a sectional plane defined by the axial direction (AR) and the radial direction (RR) a beginning portion (44a) merging into the main body (42); an end (44e) portion remote from the main body (42) and forming a kind of free end in the axial direction (AR), the beginning portion (44a) and the end portion (44e) being interconnected by an intermediate portion (44z), characterized in that the intermediate portion (44z) is curved with at least one radius of curvature (Ri, Ra).
A method (100) for classifying an etch indication (11) of a component (10), the method including the steps of: providing a captured image (13) of the at least one etch indication (11); detecting at least one criterion (15) of the etch indication (11) based on the captured image (13); comparing the determined criterion (15) to at least one criteria data set (16) of etch indications (11) that is stored in a database; and classifying the etch indication (11) into at least one predetermined defect class (D) based on the comparison.
The invention relates to a method and to a device for determining how at least one engine module (15, 15a, 15b, 15c, 15d, 15e) impacts a deterioration in an engine performance, in particular for planning an engine maintenance. Firstly, at least one measurement value for at least one performance parameter of the at least one engine module (15, 15a, 15b, 15c, 15d, 15e) is recorded at a measurement time during a flight phase, as well as measurement values for flight parameters that characterise the engine load point at the measurement time. As a result of this, a change in at least one resulting module scaler (MS) relative to a default or model value of the module scaler (MS) is determined, wherein the at least one resulting module scaler (MS) is calculated based on a deviation of the at least one recorded measurement value for the at least one performance parameter from a default or model value of the at least one measurement value of the at least one performance parameter at an engine load point. The impact of the change of the at least one module scaler (MS) on the at least one predefined engine performance parameter (LP) is determined at the measurement time at a reference engine load point.
The invention relates to a fuel cell (1) for a fuel cell stack (40) which has a first bipolar plate (11) and a catalyst membrane layer (2), the catalyst membrane layer (2) being subdivided into at least two segments (2.1-2.3), but the first bipolar plate (11) being formed continuously and extending beyond the at least two segments (2.1-2.3), thus the at least two segments (2.1-2.3) being electrically connected in parallel, and a first channel structure (21), which is intended to supply the catalyst membrane layer (2) with a reaction gas (35, 36), being subdivided into at least two segments congruently with the at least two segments (21.1-21.3) of the catalyst membrane layer.
H01M 8/0258 - Collecteurs; Séparateurs, p.ex. séparateurs bipolaires; Interconnecteurs caractérisés par la configuration des canaux, p.ex. par le champ d’écoulement du réactif ou du réfrigérant
H01M 8/0267 - Collecteurs; Séparateurs, p.ex. séparateurs bipolaires; Interconnecteurs comprenant des moyens de chauffage ou de refroidissement, p.ex. des éléments de chauffage ou des canaux d’écoulement du réfrigérant
H01M 8/0271 - Moyens d’étanchéité ou de support autour des électrodes, des matrices ou des membranes
H01M 8/2418 - Groupement en arrangeant les éléments élémentaires dans un plan
H01M 8/249 - Groupement d'éléments à combustible, p.ex. empilement d'éléments à combustible comprenant plusieurs groupements d'éléments à combustible, p.ex. ensembles modulaires
The present invention relates to a fuel cell stack (1), comprising: fuel cells (2) arranged successively in a stacking direction (5); a cover element (10) which follows the fuel cells (2) in the stacking direction (5) and holds them together; and a spring element (19) which is arranged between the fuel cells (2) and the cover element (10) in the stacking direction (5), wherein the spring element (19) is a constant force spring element (20).
The invention relates to a rotor shaft (1) for an electric motor (2), in particular for an aircraft engine, wherein the rotor shaft (1) has a forged attachment flange (3), and the attachment flange (3) is designed to attach to another shaft (6) in order to transmit a force and/or a torque and comprises a first axial end (4) facing the other shaft (6) and a base (8) on a second axial end (7) opposite the first axial end (4). According to the invention, the rotor shaft (1) has a coolant distribution body (9) which is additively manufactured at least in some regions, wherein the additively manufactured coolant distribution body (9) is arranged on the base (9) of the forged attachment flange (3) in a radially centered manner, and the rotor shaft (1) has a rotor device (12), which radially surrounds the additively manufactured coolant distribution body (9) and is connected to the base (8) of the forged attachment flange (3) at least in a force-fitting manner.
H02K 1/32 - Parties tournantes du circuit magnétique avec des canaux ou des conduits pour l'écoulement d'un agent de refroidissement
H02K 9/19 - Dispositions de refroidissement ou de ventilation pour machines avec enveloppe fermée et circuit fermé de refroidissement utilisant un agent de refroidissement liquide, p.ex. de l'huile
B33Y 80/00 - Produits obtenus par fabrication additive
H02K 7/00 - Dispositions pour la mise en œuvre d'énergie mécanique associées structurellement aux machines dynamo-électriques, p.ex. association structurelle avec des moteurs mécaniques d'entraînement ou des machines dynamo-électriques auxiliaires
H02K 1/30 - Moyens de montage ou de fixation des parties magnétiques tournantes sur ou aux structures constituant le rotor utilisant des pièces intermédiaires, p.ex. des croisillons
73.
AIRCRAFT HAVING A HEAT ENGINE AND DEVICE FOR USING THE EXHAUST GASES FROM THE HEAT ENGINE
The present invention relates to an aircraft having at least one wing, on which at least one propulsion unit is arranged, comprising at least one heat engine, especially a gas turbine, as well as an exhaust gas passage for conducting exhaust gas of the heat engine into and inside the wing.
B64D 27/12 - Aéronefs caractérisés par le type ou la position des groupes moteurs du type à turbine à gaz à l'intérieur de la voilure ou fixés à celle-ci
B64D 27/26 - Aéronefs caractérisés par la structure du montage du groupe moteur
B64D 33/04 - Aménagement sur les aéronefs des éléments ou des auxiliaires des ensembles fonctionnels de propulsion, non prévu ailleurs des sorties d'échappement ou des tuyères
F01N 3/00 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement
F01N 5/04 - Silencieux ou dispositifs d'échappement combinés ou associés à des dispositifs bénéficiant de l'énergie des gaz évacués les dispositifs utilisant l'énergie cinétique
F01N 5/02 - Silencieux ou dispositifs d'échappement combinés ou associés à des dispositifs bénéficiant de l'énergie des gaz évacués les dispositifs utilisant la chaleur
74.
GUIDE VANE ASSEMBLY OF A TURBOMACHINE AND METHOD FOR MOUNTING A GUIDE VANE ASSEMBLY
The invention relates to a guide vane assembly as well as to a method for mounting a guide vane assembly of a turbomachine, including a number of adjustable guide vanes, the guide vane platform of which has a guide vane journal that is mounted in a receiving opening of a housing of the turbomachine, wherein a guide vane head of the guide vane has a bearing pin, which is mounted on an inner ring arranged on a rotor of the turbomachine. In the method, a guide vane journal, which is arranged on a guide vane platform of a guide vane, is brought into a receiving opening of a housing, which is arranged radially with respect to a rotor axis of the turbomachine, and an inner ring is provided on a rotor of the turbomachine.
F02C 9/20 - Commande du débit du fluide de travail par réglage des aubes
F01D 17/14 - Organes de commande terminaux disposés sur des parties du stator faisant varier l'aire effective de la section transversale des injecteurs ou tuyères de guidage
75.
BRUSH SEAL COMPRISING A RUBBING-TOLERANT SUPPORT RING STRUCTURE
A brush seal can be used for a gas turbine. The brush seal includes a support ring structure; and at least one bundle of bristles that is arranged in an axial direction on the support ring structure. The support ring structure has a basis portion arranged radially on the outside, and a supporting portion arranged radially on the inside. The supporting portion has a supporting surface that faces the bundle of bristles and supports the bundle of bristles in the axial direction. The supporting portion has a radially inner edge portion that faces a rotor portion of the gas turbine when the brush seal is in an assembled state. Starting from the radially inner edge portion, the supporting portion has a radial supporting-portion length together with a substantially constant axial supporting-portion width, the supporting-portion length being greater than the supporting-portion width by at least a factor of four.
F01D 11/12 - Prévention ou réduction des pertes internes du fluide énergétique, p.ex. entre étages pour obturations de l'espace entre extrémités d'aubes du rotor et stator utilisant un élément de friction allongé, p.ex. un élément d'usure, déformable ou contraint de façon élastique
F01D 25/24 - Carcasses d'enveloppe; Eléments de la carcasse, p.ex. diaphragmes, fixations
An adjustment lever adjusts a stator vane of a turbomachine. The adjustment lever has: a first connection site, of a plurality of connection sites, the first connection site being configured to join to an adjustment ring; a second connection site, of the connection sites, the second connection stie being configured to join to the stator vane; and a joining member arranged between the first connection site and the second connection site. The joining member is shaped having at least two struts which adjoin at least one of the connection sites.
F01D 17/14 - Organes de commande terminaux disposés sur des parties du stator faisant varier l'aire effective de la section transversale des injecteurs ou tuyères de guidage
The invention relates to a fuel cell (1) having at least two bipolar plates (2) and at least one membrane-electrode arrangement (3) respectively arranged between two bipolar plates (2). Arranged between at least one bipolar plate (2) and a membrane-electrode arrangement (3) is a gas-diffusion layer (4), while at least one bipolar plate (2) has on the side facing the gas-diffusion layer (4) flow channels (4) for carrying a gas and/or a fluid, and the flow channels (5) are spaced apart from one another by webs (6). The invention also relates to a stack comprising two or more fuel cells (1).
H01M 8/026 - Collecteurs; Séparateurs, p.ex. séparateurs bipolaires; Interconnecteurs caractérisés par la configuration des canaux, p.ex. par le champ d’écoulement du réactif ou du réfrigérant caractérisés par les rainures, p.ex. leur pas ou leur profondeur
H01M 8/0258 - Collecteurs; Séparateurs, p.ex. séparateurs bipolaires; Interconnecteurs caractérisés par la configuration des canaux, p.ex. par le champ d’écoulement du réactif ou du réfrigérant
H01M 8/0267 - Collecteurs; Séparateurs, p.ex. séparateurs bipolaires; Interconnecteurs comprenant des moyens de chauffage ou de refroidissement, p.ex. des éléments de chauffage ou des canaux d’écoulement du réfrigérant
H01M 8/1004 - PROCÉDÉS OU MOYENS POUR LA CONVERSION DIRECTE DE L'ÉNERGIE CHIMIQUE EN ÉNERGIE ÉLECTRIQUE, p.ex. BATTERIES Éléments à combustible; Leur fabrication Éléments à combustible avec électrolytes solides caractérisés par les ensembles membrane-électrodes [MEA]
H01M 8/24 - Groupement d'éléments à combustible, p.ex. empilement d'éléments à combustible
H01M 4/86 - PROCÉDÉS OU MOYENS POUR LA CONVERSION DIRECTE DE L'ÉNERGIE CHIMIQUE EN ÉNERGIE ÉLECTRIQUE, p.ex. BATTERIES Électrodes Électrodes inertes ayant une activité catalytique, p.ex. pour piles à combustible
H01M 8/00 - PROCÉDÉS OU MOYENS POUR LA CONVERSION DIRECTE DE L'ÉNERGIE CHIMIQUE EN ÉNERGIE ÉLECTRIQUE, p.ex. BATTERIES Éléments à combustible; Leur fabrication
The present invention relates to a method for introducing a recess (3) into a workpiece (1), wherein the recess (3) is introduced by electrochemical removal by means of a processing cathode (2), wherein the removal exposes a flank (3.1) which bounds the recess (3) and extends from a first face (1.1) of the workpiece (1) in the direction of an opposite, second face (1.2) of the workpiece (1), wherein a protective anode (7.1, 7.2) is arranged on at least one of the faces (1.1, 1.2) during the removal, the protective anode being assigned to the flank (1.3) and lying against the at least one face (1.1, 1.2), in electrical contact with the workpiece (1), and wherein the protective anode (7.1, 7.2) is offset with respect to the flank (1.3) in the outward direction, that is to say away from the recess (3).
B23H 3/04 - Electrodes spécialement adaptées à cet effet ou leur fabrication
B23H 9/10 - Usinage d'aubes de turbine ou de buses
F01D 5/00 - Aubes; Organes de support des aubes; Dispositifs de chauffage, de protection contre l'échauffement, de refroidissement, ou dispositifs contre les vibrations, portés par les aubes ou les organes de support
B23H 9/00 - Usinage spécialement conçu pour le traitement d'objets métalliques particuliers ou pour obtenir des effets ou des résultats particuliers sur des objets métalliques
B23H 11/00 - Appareils auxiliaires ou détails non prévus ailleurs
79.
METHOD FOR DETECTING AN ANOMALY IN OPERATING MEASUREMENT VALUES OF A TURBOMACHINE, AND ANALYSIS DEVICE AND MACHINE MONITORING DEVICE
The invention relates to a method for detecting an anomaly in operating measurement values (3) of a turbomachine (1), in particular an aircraft turbine, comprising: recording operating measurement values (3) of respective operating parameters (4) of a turbomachine (1) several times during an operating period of the turbomachine (1) by means of sensors (2) of the turbomachine (1); determining quasi-stationary time periods (10) of the operating time by means of an analysis device (7); generating quasi-stationary operating data points (17) for the quasi-stationary time periods (10), the quasi-stationary operating data points (17) comprising averaged operating measurement values (14); determining respective expectation data points (20) which comprise respective operating expectation values (21) of the respective operating parameters (4); determining respective operating measurement value residues (23) of the respective operating parameters (4); checking the operating measurement value residues (23) of the respective quasi-stationary operating data points (17) for compliance with predetermined anomaly criteria (24B) with respect to predetermined nominal values (25) of the operating measurement value residues; and transmitting an anomaly indicator (26) comprising a violated anomaly criterion (27) of the anomaly criteria (24B) and the time (28) of the violation to a machine monitoring device (9).
F01D 19/00 - Démarrage des "machines" ou machines motrices; Dispositifs de régulation, de commande ou de sécurité en rapport avec les organes de démarrage
F01D 21/00 - Arrêt des "machines" ou machines motrices, p.ex. dispositifs d'urgence; Dispositifs de régulation, de commande ou de sécurité non prévus ailleurs
G01M 15/14 - Test des moteurs à turbine à gaz ou des moteurs de propulsion par réaction
80.
METHOD FOR COATING A COMPONENT OF AN AIRCRAFT ENGINE WITH A WEAR-RESISTANT LAYER, AND COMPONENT FOR AN AIRCRAFT ENGINE WITH AT LEAST ONE WEAR-RESISTANT LAYER
A method for coating a component of an aircraft engine with a wear-resistant layer, wherein the component is first coated at least regionally with a nickel- or cobalt-based alloy and subsequently aluminized. Also disclosed is a method for producing a spray powder for producing a wear-resistant layer of a component of an aircraft engine.
C22C 19/05 - Alliages à base de nickel ou de cobalt, seuls ou ensemble à base de nickel avec du chrome
C22C 19/07 - Alliages à base de nickel ou de cobalt, seuls ou ensemble à base de cobalt
C23C 10/04 - Diffusion dans des parties déterminées de la couche superficielle, p.ex. au moyen de masques
C23C 4/073 - Matériaux métalliques contenant des alliages MCrAl ou MCrAlY où M est le nickel, le cobalt ou le fer, avec ou sans éléments non métalliques
The invention relates to a rotor for a turbomachine, having at least one blade and having at least one rotor main part, which has at least one recess, in which a blade root of the least one blade is interlockingly received, wherein the blade root comprises at least one depression, in which at least one protrusion of the at least one rotor main part which protrusion delimits the at least one recess in regions is received, wherein the at least one depression is delimited by a first delimiting face on the blade root side and the at least one protrusion is delimited by a second delimiting face on the rotor main part side. At least the first delimiting face has at least one elevation which narrows a gap at least in regions, which extends between the first delimiting face and the second delimiting face.
The invention relates to a monitoring system for a gas turbine, in particular for an aircraft engine. The monitoring system comprises at least one borescope device that is able to be mounted in a borescope opening of a gas turbine housing and has a housing, in which at least one optical sensor device for acquiring images of at least one inner region of the gas turbine is arranged, and an evaluation device that is able to be connected to the at least one borescope device in order to exchange data and is designed to inspect the at least one inner region for the presence of a fault on the basis of the at least one image acquired by way of the sensor device. The invention furthermore relates to a borescope device to an evaluation device and to a gas turbine.
F01D 21/00 - Arrêt des "machines" ou machines motrices, p.ex. dispositifs d'urgence; Dispositifs de régulation, de commande ou de sécurité non prévus ailleurs
G01M 15/14 - Test des moteurs à turbine à gaz ou des moteurs de propulsion par réaction
G02B 23/24 - Instruments pour regarder l'intérieur de corps creux, p.ex. endoscopes à fibres
83.
SEAL CARRIER FOR A TURBOMACHINE, HAVING SLOT-LIKE OPENINGS IN THE SEAL BODY
The invention relates to a seal carrier for a turbomachine, in particular a gas turbine, having a carrier base and at least one seal body, wherein the at least one seal body is connected to the carrier base, and wherein the at least one seal body is formed by a plurality of cavities arranged next to one another, in particular uniformly, in the peripheral direction and in the axial direction, wherein the cavities extend out from the carrier base in the radial direction and are delimited by a cavity wall. According to the invention, the seal body has a plurality of damping portions which are designed to locally damp or disrupt the flow of force in the seal body, wherein the carrier base is continuous in the region of the damping portions.
F01D 11/12 - Prévention ou réduction des pertes internes du fluide énergétique, p.ex. entre étages pour obturations de l'espace entre extrémités d'aubes du rotor et stator utilisant un élément de friction allongé, p.ex. un élément d'usure, déformable ou contraint de façon élastique
84.
METHOD FOR ELECTROCHEMICALLY MACHINING A WORKPIECE
The invention relates to a method for machining a workpiece (11) by means of an electrochemical machining process (51) in which material is removed from the workpiece (11) in an electrolyte liquid (15), wherein the electrolyte liquid (15) is then filtered (52) in a membrane filter system (20) which has a membrane (21) that undergoes a relative movement in the membrane filter system (20) during the filtering process, and the filtered electrolyte liquid (15) is reused for the electrochemical machining process (51).
A rotor assembly may be used in a gas turbine. The rotor assembly includes rotor segments arranged in succession in an axial direction and interconnected in the axial direction by a tie-rod, and a rotor segment disposed forwardly in the axial direction having a first contact surface and a rotor segment disposed rearwardly in the axial direction having a second contact surface. The first and second contact surfaces are at least partially in contact with each other, are substantially annular in shape, and extend in a radial direction and in a circumferential direction. The first contact surface and/or the second contact surface extend at least partially obliquely relative to the radial direction. An angle is formed between the first contact surface and the second contact surface when viewed in a sectional plane defined by the axial direction and the radial direction.
F03D 5/06 - Autres mécanismes moteurs à vent les pièces en contact avec le vent oscillant et ne tournant pas
F01D 5/06 - Rotors à plus d'un étage axial, p.ex. du type à tambour ou à disques multiples; Leurs parties constitutives, p.ex. arbres, connections des arbres
86.
METHOD FOR OPERATING A COMBUSTION SYSTEM OF A TURBOMACHINE FOR A FLIGHT PROPULSION SYSTEM, AND TURBOMACHINE
The invention relates to a method for operating a combustion system (2) of a turbomachine (1) for a flight propulsion system, comprising a compressor (11), a combustion chamber (4), a turbine (15), a heat exchanger (16, 17) arranged downstream of the turbine (15) and a fuel treatment system (3). According to the invention, steam is produced in the heat exchanger (17) and guided into a mixing chamber (33, 37) of the fuel treatment system (2), to which furthermore fuel is supplied. The invention further relates to a turbomachine (1) comprising a combustion system (2) in particular for using the method.
The present invention relates to an adjustment assembly for the adjustment of adjustable blades or vanes of a turbomachine, having an adjustment ring for coupling to the adjustable blades or vanes of a blade or vane ring and having an adjusting mechanism, which has a coupling rod for coupling to a further blade or vane ring as well as a lever and a push rod, wherein the lever is rotatably mounted at a pivot and has a load arm as well as a force arm, wherein the load arm of the lever is coupled to the push rod and its force arm is coupled to the coupling rod, on different sides of the lever, so that an offset of the coupling rod via the lever and the push rod is converted to a rotation of the adjustment ring around the ring axis thereof.
The invention relates to a fuel cell device (1) which has a fuel cell stack (2). Respective end plates (5) are arranged on the opposite end surfaces (4) of the fuel cell stack (2), and the end plates (5) are connected by a tensioning device (17) of the fuel cell device (1) in order to clamp the fuel cell stack (2). According to the invention, at least one of the end plates (5) comprises a reinforcing device (8) which comprises at least one reinforcing element (7) with a fluid line (10).
H01M 8/04089 - Dispositions pour la commande des paramètres des réactifs, p.ex. de la pression ou de la concentration des réactifs gazeux
H01M 8/248 - Moyens pour comprimer les empilements d’éléments à combustible
H01M 8/2484 - Groupement d'éléments à combustible, p.ex. empilement d'éléments à combustible - Détails des groupements d'éléments à combustible caractérisés par les collecteurs d’admission externes
The invention relates to an airfoil for a compressor of a turbomachine, which extends starting from a blade root between a leading edge and a trailing edge to a blade tip, wherein the leading edge has a leading-edge thickness and the airfoil has a maximum profile thickness, the ratio of which to each other represents a relative leading-edge thickness, and the airfoil has a leading-edge wedge angle.
MANUFACTURING DEVICE FOR ELECTROCHEMICAL MACHINING OF A COMPONENT, IN PARTICULAR A TURBINE COMPONENT, METHOD FOR ELECTROCHEMICAL MACHINING OF A COMPONENT, AND COMPONENT
The invention relates to a manufacturing device for the electrochemical machining of a component, in particular a turbine component, wherein the manufacturing device comprises at least one machining device, which is set up to remove material of the component in accordance with a predetermined electrochemical machining method. It is provided that the manufacturing device comprises at least one cleaning device, which is set up to spray jets of the electrolyte solution onto the component in accordance with a predetermined jet-spraying method in order to remove a residue layer formed on the component during the predetermined electrochemical machining method.
The disclosure is directed to a method comprising the steps: carrying out multiple measurements on a mechanical object, the measurements each differing by one or more parameters influencing the measurement; determining a spectrogram on the basis of the measurement data of the measurements and depending on a predefined parameter of the mechanical object; determining one or more excitations of the mechanical object; reproducing the excitations in the spectrogram.
The invention relates to a machining apparatus for electrochemically removing component layers of a component, having at least one electrode, which is mounted so as to be movable along at least one infeed axis, and having at least one auxiliary electrode, which is mounted so as to be movable along an auxiliary infeed axis, wherein a gap for arranging the component for electrochemically removing the component layers extends between the at least one electrode and the at least one auxiliary electrode. At least the infeed axis and a longitudinal extension direction of the gap enclose an acute angle with each other. The machining apparatus comprises at least one oscillation device (40), which is set up at least to move the at least one electrode in an oscillating manner along the infeed axis and relative to the at least one auxiliary electrode.
The invention relates to an adjustable guide vane (1) for a gas turbine (2), more particularly an aircraft gas turbine (2), comprising a vane shaft (3), wherein the vane shaft (3) has a vane shaft screw thread (6) at least in a region of a radially outer vane shaft end (5). The adjustable guide vane (1) has a lever device (7), which is disposed on the vane shaft (3), and the vane shaft (3) runs through a level opening (8, 14, 23) in the lever device (7). According to the invention, an external screw thread radius (22) of the external screw thread of the vane shaft screw thread (6) corresponds to the radius (25) of the vane shaft (3), the vane shaft (3) has at least one longitudinal groove (16), which extends from the radially outer vane shaft end (5) and runs parallel to the adjustment axis (4) on the vane shaft (3) up to a longitudinal groove end (17) of the longitudinal groove (16), and the lever device (7) has at least one protrusion (18, 19), the protrusion (18, 19) being disposed in the longitudinal groove (16) and being seated at the longitudinal groove end (17) of the longitudinal groove (16).
F01D 9/04 - Injecteurs; Logement des injecteurs; Aubes de stator; Tuyères de guidage formant une couronne ou un secteur
F01D 17/16 - Organes de commande terminaux disposés sur des parties du stator faisant varier l'aire effective de la section transversale des injecteurs ou tuyères de guidage en obturant les injecteurs
F02C 9/22 - Commande du débit du fluide de travail par réglage des aubes par réglage des aubes de turbine
Blade root receptacle for receiving a blade root of a rotor blade of a turbomachine. The blade root receptacle, for radially bearing in a form-fitting manner on the blade root, has a supporting flank which, in terms of a rotation axis, at least in proportions faces radially inward, wherein the supporting flank is provided with a convexity which, when viewed in an axially perpendicular section, at least in portions has a convex shape and, also when viewed in an axially parallel section, at least in portions has a convex shape.
133), thus generating only a partial image (20.1-20.3) of the surface (21); - the imaging device (9) and the surface (21) are moved relative to each other such that different portions (31.1-31.3) of the surface (21) are captured over the course of time, thus generating different partial images (20.1-20.3), and wherein the partial images (20.1-20.3) are stitched (64) together to produce an image (40) of the surface (21).
The invention relates to a supply device (10) and to a method (100) for supplying an air bearing (11) by means of a fuel cell system (12), which comprises at least one anode (14) and at least one cathode (15) and a process gas device (17) for supplying the anode (14) and cathode (15) with fuel and ambient air and for discharging used process gases.
F01D 25/16 - Aménagement des paliers; Support ou montage des paliers dans les stators
F02C 7/06 - Aménagement des paliers; Lubrification
F02C 6/00 - Ensembles fonctionnels multiples de turbines à gaz; Combinaisons d'ensembles fonctionnels de turbines à gaz avec d'autres appareils; Adaptations d'ensembles fonctionnels de turbines à gaz à des applications particulières
F16C 32/06 - Paliers non prévus ailleurs comprenant un élément mobile supporté par un coussinet de fluide engendré, au moins en grande partie, autrement que par la rotation de l'arbre, p.ex. paliers hydrostatiques à coussinet d'air
F16C 33/10 - Structures relatives à la lubrification
The present invention relates to a blade for a gas turbine, in particular of an aircraft engine, having a blade airfoil, which has a blade-root-side first profile section and a blade-tip-side second profile section, which is spaced apart from the first profile section in a radial direction, from the first profile section to the second profile section, by a blade airfoil height, wherein a stagger angle of the blade airfoil changes with a height in the radial direction over the first profile section at least over certain portions, wherein, in a first region between a first height and a second, greater height, the change in the stagger angle over the height does not decrease with increasing height at least over certain portions.
The present invention relates to a rotor blade (20) for arrangement in a gas duct (2) of a turbomachine (1), having a rotor blade airfoil (23), which, viewed in a tangential section, has a blade airfoil profile (24) with a leading edge radius RVK and a rotor blade airfoil thickness d, wherein the blade airfoil profile (24) is thickened, at least in sections, specifically the blade airfoil thickness d is specified, in relation to the front edge radius RVK, such that (2d/Rvk2)−d≤5.5.
A turbine module (2) for a turbomachine (1). The turbine module (2) includes a main channel (26) to guide a main flow (36) through the turbine module (2), a rotor blade (21) and a stator vane (22), the stator vane (22) including a stator airfoil (22) and a platform (23), with the stator airfoil (22) arranged downstream of the rotor blade (21) in the main channel (26), and a cavity (30) including an inlet (31) for injecting a part (36.2) of the main flow (36) into the cavity (30), an outlet (32) for a reinjection of the part (36.2) of the main flow (36) from the cavity (30) into the main channel (26), wherein the cavity (30) is arranged at an axial position of the stator vane (20) and is radially offset from the stator airfoil (22).
The present invention relates to a rotating blade for a turbomachine, having a blade element and a shroud, wherein the shroud is profiled at a peripheral side, i.e., when observed in a tangential section, has a contact flank that is oriented axially, at least proportionally, and has a free flank that is also oriented axially, at least proportionally, and is in fact opposite the contact flank, wherein, when observed in the tangential section, an intermediate segment between the contact flank and the free flank has a first curvature in a first transition segment to the contact flank and has a second curvature in a second transition segment to the free flank, wherein the first curvature is greater than the second curvature.