A hydrocarbon production system 100 comprises an impurity removal device 140 that removes impurities that include one or both of oxygen and a sulfur component from a mixed gas that includes carbon dioxide and the impurities, a hydrocarbon production device 160 that includes a hydrocarbon synthesis catalyst for accelerating a reaction by which a hydrocarbon is synthesized from hydrogen and carbon dioxide and synthesizes a hydrocarbon from hydrogen and the carbon dioxide included in the mixed gas from which the impurities were removed by the impurity removal device 140, and a heat supply unit 170 that supplies reaction heat produced at the hydrocarbon production device 160 to the impurity removal device 140.
C07C 1/12 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir d'oxydes de carbone à partir d'anhydride carbonique avec de l'hydrogène
C07C 9/02 - Hydrocarbures saturés acycliques de un à quatre atomes de carbone
The present invention provides an electric supercharger comprising: a motor casing that houses a motor; a compressor casing provided with a scroll flow path; and a diffuser plate disposed between the motor casing and the compressor casing. This electric supercharger comprises: a rotor secured to a rotation axis; a motor stator secured to the motor casing; a heat dissipation member disposed between the diffuser plate and the stator; and a seal member that is disposed between the diffuser plate and the stator and that is disposed between the heat dissipation member and the rotation axis.
H02K 9/22 - Dispositions de refroidissement ou de ventilation par un matériau solide conducteur de la chaleur s'encastrant dans, ou mis en contact avec, le stator ou le rotor, p.ex. des ponts de chaleur
F02B 37/10 - Moteurs avec entraînement des pompes par les gaz d'échappement et par d'autres moyens, p.ex. avec une pompe entraînée par les gaz d'échappement et une seconde pompe entraînée mécaniquement une pompe au moins étant entraînée d'une façon alternée soit par les gaz d'échappement soit par un autre moyen
F02B 39/00 - MOTEURS À COMBUSTION INTERNE À PISTONS; MOTEURS À COMBUSTION EN GÉNÉRAL - Parties constitutives, détails ou accessoires non couverts par les groupes , et relatifs aux pompes d'alimentation ou de balayage entraînées
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 7/14 - Association structurelle à des charges mécaniques, p.ex. à des machines-outils portatives ou des ventilateurs
This motor rotor includes: a magnet including a magnet circumferential surface, a first magnet end surface, and a second magnet end surface; a C shaft including a C shaft end surface abutting against the first magnet end surface; and an armoring covering the magnet circumferential surface and a portion of the first magnet end surface that contacts the C shaft end surface. The C shaft includes: a C shaft insertion portion covered by the armoring; a C shaft protruding portion not covered by the armoring; and a C shaft coupling portion positioned between the C shaft insertion portion and the C shaft protruding portion and contacting an end of the armoring. The end of the armoring includes a ring-shaped fastening portion bent in such a manner as to approach a rotation axis of the C shaft.
H02K 1/2726 - Rotors internes l'axe de magnétisation des aimants étant perpendiculaire à l’axe du rotor le rotor étant formé d’un aimant unique ou de plusieurs aimants juxtaposés axialement
This centrifugal compressor CC comprises: an intake passage 130 connected to an intake port; a compressor impeller 9 disposed in the intake passage 130; a movable member (first movable member 210) that is provided in the intake passage 130 more on the intake port side than the compressor impeller 9, and that is movable between a protrusion position at which the movable member protrudes into the intake passage 130 and a retraction position at which the movable member is retracted from the intake passage 130; a first end 216, which is an end on the compressor impeller 9 side of an inner peripheral surface S3 of the movable member; a second end 217, which is an end on the intake port side of the inner peripheral surface S3 of the movable member; and an extending part 218 that is provided between the first end 216 and the second end 217, and extends in a direction corresponding to the rotational axis direction of the compressor impeller 9.
This turbine T includes an impeller 2 and a housing 5 that houses the impeller 2. The housing 5 includes an inlet that is in fluid communication with an exhaust port of an engine, a first space S1 that houses the impeller 2, a second space S2 that is positioned downstream of the first space S1 along the direction in which exhaust gas flows from the engine, a first flow passage 51 that connects the inlet and the first space S1, and a second flow passage 52 that directly connects the inlet and the second space S2 without connecting the inlet and the first space S1.
F02B 39/00 - MOTEURS À COMBUSTION INTERNE À PISTONS; MOTEURS À COMBUSTION EN GÉNÉRAL - Parties constitutives, détails ou accessoires non couverts par les groupes , et relatifs aux pompes d'alimentation ou de balayage entraînées
F01D 17/00 - Régulation ou commande par variation de flux
F01D 25/24 - Carcasses d'enveloppe; Eléments de la carcasse, p.ex. diaphragmes, fixations
F02B 37/18 - Commande des pompes par dérivation des gaz d'échappement
6.
METAL RECOVERY AGENT, METAL RECOVERY MEMBER, METAL RECOVERY LIQUID AGENT AND METAL RECOVERY METHOD
Provided is a geopolymer composition manufacturing method that does not cause deterioration of strength development even in the case in which an alkaline solution added in a manufacturing step is replaced with an alkaline powder and water. The method is configured: so as to include an alkaline-powder pulverizing step in which all or a portion of an aggregate is introduced into a mixer first, water employing a portion or all of kneading water as a primary water volume is added to and mixed with the aggregate such that the water is uniformly held at a surface of the aggregate in the mixer, and an alkaline powder is added to and mixed in the mixer to pulverize the alkaline powder; and so that a geopolymer composition is generated by adding and mixing remainder materials containing an active filler after the alkaline-powder pulverizing step. Therefore, the alkaline powder is finely pulverized in the alkaline-powder pulverizing step, the specific surface area thereof is increased, and thus, it is possible to increase the rate at which the alkaline powder dissolves in water. Accordingly, it is possible to increase the chemical reaction rate.
This shaping device comprises a table, a forming unit that forms a shaped object, and a controller that controls an operation of the forming unit. The table rotates in a rotation direction. The forming unit has a feeder for forming a powder bed, a heater that can pre-heat each of a plurality of regions on the powder bed at different temperatures, and a beam source that irradiates the pre-heated powder bed with an energy beam. The controller includes: a region dividing unit that divides the powder bed into a plurality of small regions; a region setting unit that sets, as a first region, a small region including a planned irradiation section to be irradiated with the energy beam by the beam source, and sets, as a second region, at least one small region among the other regions not set as the first region; and a heater control unit that controls the output of the heater such that the first region and the second region are pre-heated at mutually differing temperatures.
B33Y 30/00 - Appareils pour la fabrication additive; Leurs parties constitutives ou accessoires à cet effet
B33Y 50/02 - Acquisition ou traitement de données pour la fabrication additive pour la commande ou la régulation de procédés de fabrication additive
B29C 64/153 - Procédés de fabrication additive n’utilisant que des matériaux solides utilisant des couches de poudre avec jonction sélective, p.ex. par frittage ou fusion laser sélectif
B29C 64/295 - Fabrication additive, c. à d. fabrication d’objets en trois dimensions [3D] par dépôt additif, agglomération additive ou stratification additive, p.ex. par impression en 3D, stéréolithographie ou frittage laser sélectif - Détails ou accessoires à cet effet Éléments de chauffage
B29C 64/393 - Acquisition ou traitement de données pour la fabrication additive pour la commande ou la régulation de procédés de fabrication additive
B22F 10/28 - Fusion sur lit de poudre, p.ex. fusion sélective par laser [FSL] ou fusion par faisceau d’électrons [EBM]
B22F 10/362 - Commande ou régulation des opérations des paramètres du faisceau d’énergie pour le préchauffage
B22F 12/90 - Moyens de commande ou de régulation des opérations, p.ex. caméras ou capteurs
10.
POWDER MIXTURE AND METHOD FOR PRODUCING GEOPOLYMER SOLIDIFIED MATERIAL USING SAME
Provided is a powder mixture that allows easy production of a geopolymer solidified material on-site and that allows production of a high-strength geopolymer solidified material. Also provided is a geopolymer solidified material made using the powder mixture. The powder mixture, which results from mixing an active filler and an alkali powder, is configured such that a geopolymer solidified material can be produced by adding water or water and an aggregate to the powder mixture and stirring the resulting mixture. Accordingly, a geopolymer solidified material can be produced on a production site by delivering the powder mixture prepared in advance to the site and mixing the powder mixture with water or water and an aggregate on the site. Also, the alkali powder included in the powder mixture can be any powder of: sodium metasilicate; sodium metasilicate and sodium hydroxide; or sodium metasilicate and potassium hydroxide. Accordingly, a high-strength geopolymer solidified material can be produced as a result.
B28B 1/32 - Fabrication d'objets façonnés à partir du matériau en appliquant le matériau sur un noyau ou une autre surface de moulage pour former une couche sur celle-ci par projection, p.ex. par pulvérisation
B28B 1/38 - Fabrication d'objets façonnés à partir du matériau en appliquant le matériau sur un noyau ou une autre surface de moulage pour former une couche sur celle-ci par trempage
The power control device for a hydrogen production system according to one embodiment comprises: a power generation device that generates power using a renewable energy; a hydrogen production device that produces hydrogen using the power generated by the power generation device; and a connection unit that connects the power generation device and the hydrogen production device to a power system. The power control device determines, on the basis of the power generated by the power generation device and the power reversely flowed to the power system, a power command value supplied to the hydrogen production device so that hydrogen is produced in a state in which the reverse power flow to the power system always occurs.
This motor rotor comprises a shaft portion having a magnet and a holding tube fitted onto an outer circumferential surface of the shaft portion. The shaft portion has the magnet and a large-diameter portion having an outer diameter longer than the outer diameter of the magnet. An inner circumferential surface of the holding tube is in abutment against each of an outer circumferential surface of the magnet and an outer circumferential surface of the large-diameter portion.
H02K 1/274 - Rotors internes l'axe de magnétisation des aimants étant perpendiculaire à l’axe du rotor le rotor étant formé de plusieurs aimants disposés sur la circonférence
This substrate fixing structure secures, to a fixing destination member, a substrate comprising a heating component on a first surface so that a second surface faces the fixing destination member side. A first spacer is disposed between the second surface of the substrate and the fixing destination member. A metal screw is inserted into a substrate hole provided in the substrate, and thus, a leading end section thereof is mounted on the fixing destination member. The screw sandwiches the substrate and the first spacer between the fixing destination member and a screw head section. A rear surface of a flange portion of the screw head section is in contact with the heating component.
This triple gear pump comprises one driving gear, and a first and a second driven gear that each engage with the driving gear and that respectively constitute a first and a second gear pump; moreover, said triple gear pump discharges a fluid used as fuel. This triple gear pump comprises: a housing that surrounds the first gear pump and the second gear pump; a driving shaft that is linked with the driving gear so as to rotate integrally with the same, and that is drawn out of the housing; a driving shaft bearing that rotatably supports the driving shaft, that is capable of floating in the axial direction, and that receives pressure from the fluid and abuts the driving gear; a mechanical seal that is interposed between the driving shaft and the housing and that prevents the fluid from leaking outside of the housing; and a seal that is interposed between the driving shaft bearing and the mechanical seal and that prevents the pressure of the fluid from being transmitted to the mechanical seal.
Provided is a fuel supply system that can identify an internal leak model of a gear pump with high accuracy. The system comprises: a gear pump; a measurement section including an orifice and a check valve that are connected in parallel to each other downstream of the gear pump; a minimum pressurization check valve disposed downstream of the measurement section; and a control device. The check valve closes when a gear pump rotational speed is less than an upper threshold, and opens when the gear pump rotational speed is greater than or equal to the upper threshold. The minimum pressurization check valve comprises a cylinder and a piston that partitions the interior of the cylinder into a first chamber in communication with a measurement section outlet, and a second chamber in communication with a system inlet. The piston is biased in a direction toward the first chamber. A cylinder lateral wall has an outflow port of which the opening degree is adjusted by reciprocation of the piston. The minimum pressurization check valve is configured to maintain a constant differential pressure between the system inlet and the measurement section outlet when the gear pump rotational speed is between a lower threshold and an intermediate threshold, both inclusive.
F02C 7/232 - Soupapes pour combustible; Systèmes ou soupapes de drainage
F04C 14/24 - Commande, surveillance ou dispositions de sécurité pour "machines" ou pompes ou installations de pompage caractérisées par l'utilisation des soupapes pour commander la pression ou le débit, p.ex. soupapes de décharge
F23R 3/28 - Chambres de combustion à combustion continue utilisant des combustibles liquides ou gazeux caractérisées par l'alimentation en combustible
In an external gear pump (P), a pair of gears (G1, G2) are accommodated inside a pump body (B). An intake chamber (2I) is formed on one side of a portion at which the pair of gears (G1, G2) mesh, and a discharge chamber (2O) is formed on the other side. Rotation of the pair of gears (G1, G2) sends a fluid from the intake chamber (2I) to the discharge chamber (2O) along the circumferential direction. A cylindrical bushing (F) that holds the rotation shaft (GS1) of at least one (G1) of the pair of gears (G1, G2) in a rotatable manner is provided, with a lubricating liquid film being formed between the bushing (F) and the rotation shaft (GS1). One end (P3) of the bushing (F) faces fluid on the high-pressure discharge chamber (2O) side, and the other end thereof faces fluid on the low-pressure intake chamber (2I) side. A discharge groove (107) formed in the inner circumferential surface (100) of the bushing (F) has one end which is on the high-pressure side and which is closed, and another end which is on the low-pressure side and which is open. The discharge groove (107) has a length which is not less than half the length of the bushing (F) in the direction of the rotation shaft.
F04C 2/18 - Machines ou pompes à piston rotatif du type à engrènement extérieur, c. à d. avec un engagement des organes coopérants semblable à celui d'engrenages dentés d'un autre type qu'à axe interne avec des pistons rotatifs dentés à formes de dents semblables
This rotary device (100) comprises: an impeller 1; a plurality of movable-type vanes 2 which are disposed upstream or downstream from the impeller 1 and operated so as to adjust the cross-sectional area of a flow passage; and an inner wall 3 and an outer wall 4 which define the flow passage. In a radial direction r of the impeller 1, or in a direction inclined with respect to both the axial direction x and the radial direction r of the impeller 1, the inner wall 3 and the outer wall 4 include a plurality of groups of flat surfaces 31, 41 which are parallel to each other and face each other with the movable vanes 2 therebetween. When viewed in the axial direction x of the impeller 1, the inner wall 3 and the outer wall 4 have polygonal shapes corresponding to each other.
This radial foil bearing comprises: a top foil provided with an opposing surface opposing a rotating shaft; a bump foil arranged outward, that is, on the opposite side to the opposing surface, of the top foil; and a bearing housing arranged so as to surround the bump foil. The bump foil comprises: a tubular portion that surrounds the top foil in a tubular shape; and resilient piece portions which are adjacent to the tubular portion in an axial direction of the rotating shaft, are capable of deforming independently of the tubular portion, and are capable of extending in a circumferential direction. The resilient piece portions are supported by the bearing housing.
This external gear pump is provided with: a pair of a driving gear (2) and a driven gear (3); a pump casing (1); a gear accommodation room (13) that is formed inside the pump casing (1) and accommodates the driving gear (2) and the driven gear (3) in a meshed state; an inlet chamber (14) that is formed on one side of a mesh portion between the driving gear (2) and the driven gear (3) inside the pump casing (1); and an outlet chamber (15) that is formed on the other side of the mesh portion inside the pump casing (1). A slit (16) of which only one end is opened is formed in a circumferential direction inside a sliding wall of the pump casing 1 that slides with the driving gear (2) or the driven gear (3) nearer the inlet chamber (14). By the formation of the slit (16), a cantilevered sliding piece (17) is provided in the sliding wall.
F04C 2/18 - Machines ou pompes à piston rotatif du type à engrènement extérieur, c. à d. avec un engagement des organes coopérants semblable à celui d'engrenages dentés d'un autre type qu'à axe interne avec des pistons rotatifs dentés à formes de dents semblables
A combustion system 10 comprises: a combustion chamber 13c; a cylindrical air chamber 31 which has an injection hole 31a facing the inside of the combustion chamber 13c; a fuel supply path 41 connected to the air chamber 31; and an air supply path 32 connected to a side surface of the air chamber 31.
F02C 7/232 - Soupapes pour combustible; Systèmes ou soupapes de drainage
F23R 3/28 - Chambres de combustion à combustion continue utilisant des combustibles liquides ou gazeux caractérisées par l'alimentation en combustible
F23R 3/30 - 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
21.
AIRCRAFT HYBRID MOTIVE POWER SOURCE SYSTEM AND METHOD FOR CONTROLLING SAME
This aircraft hybrid motive power source system is installed in an aircraft and comprises: a gas turbine engine (20) that includes a low-pressure shaft (27) and a high-pressure shaft (28) as rotating shafts; a first electric generator (31) that is drivably connected to the high-pressure shaft (28); a second electric generator (32) that is drivably connected to the low-pressure shaft (27); a fuel cell (40) to which fuel gas and oxidant gas are supplied; a fuel gas generation unit (50) that generates fuel gas from a raw material through heating using exhaust gas of the gas turbine engine (20); and a control unit (60) that, on the basis of information indicating the running state of the gas turbine engine (20) and/or demand for electric power in the aircraft, supplies, to the first electric generator (31) or the second electric generator 32, electric power of the fuel cell (40) obtained through the supply of fuel gas.
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 27/10 - Aéronefs caractérisés par le type ou la position des groupes moteurs du type à turbine à gaz
F01D 25/36 - Vireur ou dispositif de rotation par mouvements saccadés utilisant des moteurs électriques
F01K 23/02 - Ensembles fonctionnels caractérisés par plus d'une machine motrice fournissant de l'énergie à l'extérieur de l'ensemble, ces machines motrices étant entraînées par des fluides différents les cycles de ces machines motrices étant couplés thermiquement
F02C 7/00 - Caractéristiques, parties constitutives, détails ou accessoires non couverts dans, ou d'un intérêt plus général que, les groupes ; Entrées d'air pour ensembles fonctionnels de propulsion par réaction
F02G 5/02 - Utilisation de la chaleur perdue dans les gaz d'échappement
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
H01M 8/04014 - 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 combustion des réactifs
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
H01M 8/10 - 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
This combustion system 100 is provided with: a vaporizer 2 that heats liquid ammonia with a heating medium; a boiler 3 that is connected to the vaporizer 2 and burns an ammonia-containing fuel coming from the vaporizer 2; an induced draft fan 6 that is arranged in a flue L4 connected to the boiler 3 and guides a discharged gas from the boiler 3; and a heat exchanger 4 that is arranged upstream of the induced draft fan 6 in the flue L4. The heat exchanger 4 is connected to the vaporizer 2 in a circulating manner through a circulating flow path L5 through which the heating medium flows. The heat exchanger 4 cools a discharged gas flowing through the flue L4 with the heating medium that receives a cold thermal energy from the liquid ammonia.
F23L 17/00 - Génération du tirage; Mitrons de cheminées ou de conduits d'alimentation en air; Débouchés de conduits de cheminées
F23J 7/00 - Aménagement des dispositifs d'introduction de produits chimiques dans le foyer
F23C 1/12 - Appareils à combustion spécialement adaptés à la combustion de plusieurs sortes de combustibles simultanément ou alternativement, au moins un des combustibles étant fluide ou étant un combustible solide en suspension dans l’air du combustible gazeux et du combustible pulvérulent
F23J 15/06 - Aménagement des dispositifs de traitement de fumées ou de vapeurs des appareils de refroidissement
F23K 5/00 - Alimentation en d'autres combustibles ou distribution d'autres combustibles pour les appareils à combustion
This combustion system 100 is provided with: a vaporizer 2 that heats liquid ammonia with a heating medium; a boiler 3 that is connected to the vaporizer 2 and burns an ammonia-containing fuel coming from the vaporizer 2; an air preheater 4 that is arranged in a flue L4 connected to the boiler 3 and heats air with a discharged gas from the boiler 3; an induced draft fan 8 that is arranged downstream of the air preheater 4 in the flue L4 and guides the discharged gas; and a first heat exchanger 5 that is arranged downstream of the air preheater 4 and upstream of the induced draft fan 8 in the flue L4, wherein the first heat exchanger 5 is connected to the vaporizer 2 in a circulating manner through a circulating flow path L5, heats the heating medium by means of the discharged gas, and supplies the heated heating medium to the vaporizer 2.
F23L 17/00 - Génération du tirage; Mitrons de cheminées ou de conduits d'alimentation en air; Débouchés de conduits de cheminées
F23J 7/00 - Aménagement des dispositifs d'introduction de produits chimiques dans le foyer
F23C 1/12 - Appareils à combustion spécialement adaptés à la combustion de plusieurs sortes de combustibles simultanément ou alternativement, au moins un des combustibles étant fluide ou étant un combustible solide en suspension dans l’air du combustible gazeux et du combustible pulvérulent
F23K 5/00 - Alimentation en d'autres combustibles ou distribution d'autres combustibles pour les appareils à combustion
A radial foil bearing, which surrounds a rotating shaft and supports the rotating shaft, includes a bearing housing, an insertion hole which is formed in the bearing housing and through which the rotating shaft is inserted, a recessed groove provided in the inner peripheral surface of the insertion hole and recessed toward the radially outer side, a pin hole base end side having an opening formed in the groove and extending to the outer peripheral surface of the bearing housing, a restricting pin that is inserted into the pin hole base end side and that passes through the groove, and a top foil placed in the insertion hole, the groove being formed so as to reach an axial end surface of the bearing housing, a circumferential end part of the top end foil being placed in the groove, and the restricting pin intersecting the inner side surface of the groove at multiple locations.
The carbide production system (1) comprises a combustion furnace (10) that contains a combustion chamber (12) having a first biomass supply port (17) that supplies a first biomass and combusts the first biomass in air and a carbide recovery device (40), connected to the combustion furnace (10), that recovers carbide generated from a second biomass. The second biomass is heated by the combustion of the first biomass via a second biomass supply port (18) provided downstream from the first biomass supply port (17) and is supplied to a carbonization zone where low-concentration oxygen gas, having a lower oxygen concentration than air, is present due to combustion of the first biomass.
C10B 49/20 - Distillation destructive des matières carbonées solides par chauffage direct au moyen d'agents porteurs de chaleur, y compris la combustion partielle de la matière à traiter avec des porteurs de chaleur solides, mobiles, sous forme divisée sous forme dispersée
C10B 47/22 - Distillation destructive des matières carbonées solides avec chauffage indirect, p.ex. par combustion externe avec charge mouvante sous forme dispersée
C10B 53/00 - Distillation destructive spécialement conçue pour des matières premières solides particulières ou sous forme spéciale
27.
SEMICONDUCTOR SWITCH DRIVE CIRCUIT AND POWER CONVERTER
This semiconductor switch drive circuit comprises a drive power source and a semiconductor switch drive unit. The semiconductor switch drive unit comprises: a connection switching unit; a capacitor that generates a positive voltage; a capacitor for power charging; and a capacitor that generates a negative voltage. The connection switching unit alternately switches between: a first connection state, in which a positive voltage application closed circuit is formed to apply a positive voltage to a gate terminal of the semiconductor switch; and a second connection state, in which a negative voltage application closed circuit is formed to apply a negative voltage to the gate terminal of the semiconductor switch. Between the drive power source and the semiconductor switch, a movement restriction unit is provided which restricts movement of an electric charge from a path through the positive voltage application closed circuit to another path that passes through a positive terminal of the capacitor without passing through the gate terminal of the semiconductor switch.
H02M 1/08 - Circuits spécialement adaptés à la production d'une tension de commande pour les dispositifs à semi-conducteurs incorporés dans des convertisseurs statiques
A power generation system 10 comprises: a boiler 3 that combusts fuel containing ammonia; a turbine 41 that is circulatively connected to the boiler 3 and driven by steam from the boiler 3; a condenser 5 that is circulatively connected to the boiler 3 and the turbine 41, cools the vapor discharged from the turbine 41, and supplies condensed water to the boiler 3; an evaporator 2 that is connected to an ammonia supply source 1 and the boiler 3, heats liquid ammonia from the ammonia supply source 1, and supplies the heated ammonia to the boiler 3; and at least one line L4 that thermally connects the evaporator 2 and the condenser 5 and transmits cold energy of the liquid ammonia flowing in the evaporator 2, to the condenser 5.
F01K 9/00 - Ensembles fonctionnels de machines à vapeur caractérisés par des condenseurs disposés ou modifiés de façon à s'adapter aux machines motrices
29.
DRIVING ASSISTANCE DEVICE AND DRIVING ASSISTANCE METHOD
A driving assistance device (60) comprises a vehicle information acquisition unit (632) and a driving assistance information generation unit (633), and assists with driving of a vehicle that is switchable between an automatic driving mode and a manual driving mode. The vehicle information acquisition unit (632) acquires current position information of the vehicle and information that indicates whether the vehicle is operating in the automatic driving mode or operating in the manual driving mode. When it is determined on the basis of the acquired information that the vehicle is operating in the manual driving mode and that the current position is not on a preset automatic driving travel route, the driving assistance information generation unit (633) generates driving assistance information for guiding the vehicle to the travel route.
RR), which is a flow passage width (w) divided by a flow passage height (h), is within a range of 3-100. Inner walls forming the flow passage (7) include a top wall (3a) as a first wall and a bottom wall (4c) as a second wall, which are oriented toward each other in the direction in which the flow passage height (h) is defined. The plurality of baffle plates (5) each have a rod-shaped part disposed to the second wall so as to protrude toward the first wall. The extension direction of the baffle plates (5) is parallel to the second wall and is inclined at a fixed inclined angle with respect to the extension direction of the flow passage (7).
A turbine T comprises: housings 3, 5 including an accommodation space 29 that accommodates a turbine impeller 15, a turbine scroll flow path 31a disposed radially outside the turbine impeller 15, a communication flow path 33 through which the turbine scroll flow path 31a and the accommodation space 29 communicate, and a discharge flow path 27 that is continuous with the accommodation space 29 in the rotational axis direction of the turbine impeller 15; a vane member 35 that is provided in the communication flow path 33 and that includes a plurality of vane parts 35b opposite a first inner wall part W1 facing the communication flow path 33 from the side opposite to the discharge flow path 27; and an elastic member 39 enclosed between the vane member 35 and a second inner wall part W2 facing the communication flow path 33 from the side having the exhaust flow path 27.
F02B 39/00 - MOTEURS À COMBUSTION INTERNE À PISTONS; MOTEURS À COMBUSTION EN GÉNÉRAL - Parties constitutives, détails ou accessoires non couverts par les groupes , et relatifs aux pompes d'alimentation ou de balayage entraînées
F01D 25/24 - Carcasses d'enveloppe; Eléments de la carcasse, p.ex. diaphragmes, fixations
32.
ELECTRODE FOR DISCHARGE SURFACE TREATMENT AND METHOD FOR PRODUCING SAME
According to the present invention, a discharge surface treatment is carried out by means of an electrode which comprises a sintered body that is produced by: forming an electrode powder which is composed of a small-diameter metal powder having a median diameter of 3 µm or less and a large-diameter metal powder having a median diameter of more than 3 µm but not more than 10 µm, the small-diameter metal powder and the large-diameter metal powder containing Cr and oxygen; mixing and granulating the small-diameter metal powder and the large-diameter metal powder; compression molding the granulated powder at a pressure of 20 MPa to 300 MPa; and sintering the thus-obtained powder compact at a temperature of 450°C to 950°C. With respect to this electrode, the sintered body is formed by sintering the small-diameter metal powder having a median diameter of 3 µm or less and the large-diameter metal powder having a median diameter of more than 3 µm but not more than 10 µm with each other; the small-diameter metal powder and the large-diameter metal powder contain Cr and oxygen; and the oxygen content ratio of the sintered body is 1.5% by mass to 4.0% by mass.
C23C 26/00 - Revêtements non prévus par les groupes
B22F 1/052 - Poudres métalliques caractérisées par la dimension ou la surface spécifique des particules caractérisées par un mélange de particules de dimensions différentes ou par la distribution granulométrique des particules
B22F 1/10 - Poudres métalliques contenant des agents lubrifiants ou liants; Poudres métalliques contenant des matières organiques
B22F 5/00 - Fabrication de pièces ou d'objets à partir de poudres métalliques caractérisée par la forme particulière du produit à réaliser
B22F 9/08 - Fabrication des poudres métalliques ou de leurs suspensions; Appareils ou dispositifs spécialement adaptés à cet effet par des procédés physiques à partir d'un matériau liquide par coulée, p.ex. à travers de petits orifices ou dans l'eau, par atomisation ou pulvérisation
C22C 1/04 - Fabrication des alliages non ferreux par métallurgie des poudres
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
This hydrogen production device comprises: a storage tank 110; a heating unit 120 provided within the storage tank 110; a first air diffuser 130 provided below the heating unit 120 within the storage tank 110; a second air diffuser 140 provided below the first air diffuser 130 within the storage tank 110; a catalyst supply unit 150 for supplying a catalyst containing one or more of iron, nickel, copper, and aluminum from a supply port 116a formed above the heating unit 120 within the storage tank 110; a catalyst discharge unit 160 for discharging the catalyst from a discharge port 114a formed below the second air diffuser 140 within the storage tank 110; and a raw material gas supply unit 170 for supplying a raw material gas containing at least a hydrocarbon to the first air diffuser 130 and the second air diffuser 140.
C01B 3/30 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par décomposition de composés organiques gazeux ou liquides d'hydrocarbures avec des particules solides mobiles utilisant la technique du lit fluidisé
B01J 21/02 - Bore ou aluminium; Leurs oxydes ou hydroxydes
C01B 3/26 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par décomposition de composés organiques gazeux ou liquides d'hydrocarbures avec des catalyseurs
34.
TURNING CHARACTERISTIC SETTING METHOD OF AUTOMATIC VEHICLE DRIVING SYSTEM AND AUTOMATIC VEHICLE DRIVING SYSTEM
According to the present invention, a navigation pattern for acquiring parameters of turning characteristics is automatically generated in a turning characteristic setting method of an automatic vehicle driving system (step S4). Data pertaining to the turning characteristics of a vehicle is acquired while causing the vehicle to automatically navigate in the generated navigation pattern (step S5). The parameters are set on the basis of the acquired data (step S6).
B62D 6/00 - Dispositions pour la commande automatique de la direction en fonction des conditions de conduite, qui sont détectées et pour lesquelles une réaction est appliquée, p.ex. circuits de commande
B60W 40/12 - Calcul ou estimation des paramètres de fonctionnement pour les systèmes d'aide à la conduite de véhicules routiers qui ne sont pas liés à la commande d'un sous-ensemble particulier liés à des paramètres du véhicule lui-même
B60W 60/00 - Systèmes d’aide à la conduite spécialement adaptés aux véhicules routiers autonomes
35.
METHOD FOR REMOVING DISCHARGE SURFACE TREATMENT FILM
This method for removing a discharge surface treatment film (14) coated on the surface of a component (12) comprises a main washing step (S10) for performing main washing on a discharge surface treatment film (14) by using a main washing liquid containing a sodium permanganate and a primary alkali metal hydroxide, wherein the discharge surface treatment film (14) contains chromium.
A centrifugal compressor 100 is provided with an impeller 3, and a housing 6 that accommodates the impeller 3. The housing 6 includes a main flow path 20 that accommodates the impeller 3, and a sub-flow path 30 that surrounds the main flow path 20 in a cross section perpendicular to an axial direction of the impeller 3. The sub-flow path 30 includes, in the flow of air inside the main flow path 20, a first end 30A that opens to the main flow path 20 at a position upstream of the impeller 3, and a second end 30B that opens to the main flow path 20 at a position downstream of the first end 30A. The first end 30A opens to the main flow path 20 in the direction opposite to the impeller 3 in the axial direction of the impeller 3, and the sub-flow path 30 is continuous with the first end 30A and includes a narrowed part 30C narrowed toward the first end 30A.
In this method for manufacturing a layered product, a plurality of sheets are layered to produce a layered product. The method for manufacturing a layered product includes: a first placement step in which, on a transport path for transporting sheets, first sheet members are placed consecutively side by side in the transport direction; and a second placement step in which, over the first sheet members that have been placed side by side on the transport path, second sheet members are placed consecutively side by side in the transport direction. In the second placement step, the second sheet members are placed at a location on the transport path that is downstream of the placement location of the first sheet members. In the first placement step and the second placement step, the first sheet members or the second sheet members are placed at an angle with respect to the transport direction, thereby enabling the adjustment of the placement pitch for the first sheet members or the second sheet members in the transport direction.
B29C 63/02 - Garnissage ou gainage, c. à d. application de couches ou de gainages préformés en matière plastique; Appareils à cet effet avec des matières sous forme de feuilles ou de nappes
B29C 65/02 - Assemblage d'éléments préformés; Appareils à cet effet par chauffage, avec ou sans pressage
A power generation device (1) comprises: a power generator (10); a power conversion circuit (21); a first interrupting circuit (23); a second interrupting circuit (24); a first monitoring circuit (25) that monitors output current flowing from the power generator (10) to the power conversion circuit (21) and also outputs a first interrupt signal when the absolute value of the output current exceeds a first predetermined value; and a second monitoring circuit (26) that monitors the total value of the output voltages of the respective phases of the power generator (10) and also outputs a second interrupt signal when the absolute value of the total value exceeds a second predetermined value. The first interrupting circuit (23) electrically interrupts the connection between the power generator (10) and the power conversion circuit (21) in accordance with the output of the first interrupt signal or the second interrupt signal. The second interrupting circuit (24) electrically interrupts the connection between three-phase coils (Lu, Lv, Lw) and a neutral point (N) in accordance with the output of the first interrupt signal or the second interrupt signal.
H02P 9/00 - Dispositions pour la commande de génératrices électriques de façon à obtenir les caractéristiques désirées à la sortie
H02P 101/30 - Adaptation particulière des dispositions pour la commande de génératrices pour aéronefs
H02P 103/20 - Dispositions pour la commande caractérisées par le type de génératrice du type synchrone
H02M 7/12 - Transformation d'une puissance d'entrée en courant alternatif en une puissance de sortie en courant continu sans possibilité de réversibilité par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande
H02M 7/48 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant alternatif sans possibilité de réversibilité par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande
A reaction system (1) comprises: a carbon dioxide collection unit (20) which collects carbon dioxide by an absorption process or an adsorption process; a reaction unit (40) which generates hydrocarbon from a raw material that contains hydrogen and carbon dioxide; and a distillation unit (50) which distills the hydrocarbon, wherein the hydrocarbon is distilled in the distillation unit (50) with reaction heat which has been generated in generation of the hydrocarbon in the reaction unit (40), and carbon dioxide having been absorbed or adsorbed in the carbon dioxide collection unit (20) is separated by a low-temperature heat medium, the temperature of which, as a result of consuming part of the reaction heat in the distillation unit (50), has become lower than that of a high-temperature heat medium that is a heat medium introduced to the distillation unit (50).
C10G 2/00 - Production de mélanges liquides d'hydrocarbures de composition non définie à partir d'oxydes de carbone
C07C 1/12 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir d'oxydes de carbone à partir d'anhydride carbonique avec de l'hydrogène
C07C 1/22 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir de composés organiques ne renfermant que des atomes d'oxygène en tant qu'hétéro-atomes par réduction
A method for producing a biochemical product that involves culturing microorganisms in a semisolid medium to generate a biochemical product, wherein: the semisolid medium contains a liquid medium containing a component derived from first lignocellulosic biomass obtained in a pellet production step (S10) for producing pellets from the first lignocellulosic biomass, and a carrier derived from a second lignocellulosic biomass, the carrier being in contact with the liquid medium; and the component derived from the first lignocellulosic biomass contains at least one of sugars obtained from the first lignocellulosic biomass and glycerol generated from oils and fats of the first lignocellulosic biomass.
This stator for a rotary electric machine comprises a stator core 20 and a stator coil 21. The stator core 20 comprises a yoke having a cylindrical shape and teeth 20b protruding radially inward from the yoke. The stator coil 21 is arranged in a slot 20c formed between the adjacent teeth 20b. The stator coil 21 comprises straight-angle conductors 210. The straight-angle conductors 210 are arranged in the slot 20c in a radial direction or a circumferential direction of the cylindrical shape described above. A coolant channel groove 212 is formed on a surface of the straight-angle conductor 210 by press molding.
H02K 3/24 - Enroulements caractérisés par la configuration, la forme ou le genre de construction du conducteur, p.ex. avec des conducteurs en barre avec des canaux ou des conduits pour un agent de refroidissement entre les conducteurs
A steam power plant 100 is provided with: a first tank 1 that houses liquid ammonia; a boiler 2 that is connected to the first tank 1 and that burns fuel containing ammonia; a steam turbine 3 that is connected to the boiler 2 and that runs by means of steam from the boiler 2; a steam condenser 4 that is connected to the steam turbine 3 and that condenses steam discharged from the steam turbine 3 into water; and a vaporizer 5 disposed between the first tank 1 and the boiler 2 along the flow of ammonia. The vaporizer 5 is recirculatingly connected to the steam condenser 4, heats the liquid ammonia from the first tank 1 by means of first water from the steam condenser 4, and returns the first water that has been cooled by the liquid ammonia to the steam condenser 4.
F01K 17/02 - Utilisation de la vapeur ou des condensats provenant soit du soutirage, soit de la sortie des ensembles fonctionnels de machines motrices à vapeur pour le chauffage, p.ex. industriel, domestique
F01K 9/00 - Ensembles fonctionnels de machines à vapeur caractérisés par des condenseurs disposés ou modifiés de façon à s'adapter aux machines motrices
This steam power generation plant (100) comprises: a tank (1) which accommodates liquid ammonia; a boiler (2) which burns an ammonia-containing fuel; a steam turbine (3) operated by means of steam from the boiler (2); a plurality of supply water heaters (6a, 6b, 8) which heats, by means of bleed air from the steam turbine (3), the water to be supplied to the boiler (2); a water supply line (L) connected to the plurality of supply water heaters (6a, 6b, 8) and the boiler (2); and at least one vaporizer (51) which is disposed in the flow of ammonia between the tank (1) and the boiler (2), and which is circularly connected to the water supply line (L), heats liquid ammonia from the tank (1) by means of the water from the water supply line (L), and returns the water cooled by the liquid ammonia to the water supply line (L).
F01K 9/00 - Ensembles fonctionnels de machines à vapeur caractérisés par des condenseurs disposés ou modifiés de façon à s'adapter aux machines motrices
F01K 17/02 - Utilisation de la vapeur ou des condensats provenant soit du soutirage, soit de la sortie des ensembles fonctionnels de machines motrices à vapeur pour le chauffage, p.ex. industriel, domestique
F22B 1/18 - Méthodes de production de vapeur caractérisées par le genre de chauffage par exploitation de l'énergie thermique contenue dans une source chaude la source chaude étant un gaz chaud, p.ex. des gaz d'évacuation tels que les gaz d'échappement de moteurs à combustion interne
F22D 11/00 - Alimentation en eau non prévue dans les autres groupes principaux
This heat treatment device comprises: a transferred body that includes an object to be treated and is provided with at least a heating body for heating the object to be treated; a transfer device that transfers the transferred body; and an inductive heating device provided with a heating coil that can be moved toward or away from the transferred body as desired, the inductive heating device heating the heating body by causing a magnetic field to act on the transferred body.
A traveling-wave excitation method comprising, when exciting each of a plurality of blades (23) of a rotor (20) by each of a plurality of excitation sources (141 to 14N0) having a one-to-one correspondence with the plurality of blades (23) at a phase corresponding to an excitation signal input to each of the plurality of excitation sources (141 to 14N0), inputting, to a pair of excitation sources (141 to 14N0) which are of the plurality of excitation sources (141 to 14N0) and correspond to a pair of blades (23) which are of the plurality of blades (23) and have positions different from each other by 180° in the rotation direction of the rotor (20), the same excitation signals having the same phase when a number (Nd) of nodal diameters of vibration to be generated in the rotor (20) through the excitation of the plurality of blades (23) is an even number and the same excitation signals with opposite phases when the number (Nd) of nodal diameters is an odd number.
A combustion system 1 comprises an ammonia tank 14, a combustor 12 connected to the ammonia tank 14, an intake flow path 101 connected to the combustor 12, a compressor 11a provided in the intake flow path 101, an ammonia recovery tub 16 connected to the ammonia tank 14, and a first flow path (flow paths 110, 111) connecting the ammonia recovery tub 16 and the compressor 11a.
F02C 9/28 - Systèmes de régulation sensibles aux paramètres ambiants ou à ceux de l'ensemble fonctionnel, p.ex. à la température, à la pression, à la vitesse du rotor
F23J 15/00 - Aménagement des dispositifs de traitement de fumées ou de vapeurs
F02C 3/20 - Ensembles fonctionnels de turbines à gaz caractérisés par l'utilisation de produits de combustion comme fluide de travail utilisant un combustible, un oxydant ou un fluide de dilution particulier pour produire les produits de combustion
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
F02C 7/00 - Caractéristiques, parties constitutives, détails ou accessoires non couverts dans, ou d'un intérêt plus général que, les groupes ; Entrées d'air pour ensembles fonctionnels de propulsion par réaction
F02C 7/22 - Systèmes d'alimentation en combustible
This thrust foil bearing comprises: a base plate having an insertion hole into which a rotation shaft is inserted and a support surface; a plurality of top foil pieces supported on the support surface; a stepped member mounted on the support surface, formed separately from the base plate, and including a plurality of stepped support portions that are constituted by a plurality of stepped surfaces; and a plurality of bump foil pieces disposed between the top foil pieces and the base plate, disposed at respective ones of the plurality of stepped support portions, and each including a valley that is in contact with the stepped surface.
An ammonia-using system 100 comprises a tank 1 that stores liquid ammonia, a pressurizer 2 that is in fluid communication with the tank 1 and pressurizes liquid ammonia or gaseous ammonia, a reducing valve Vd that reduces the pressure of ammonia pressurized by the pressurizer, a liquid/gas separation vessel 4 that separates liquid ammonia and gaseous ammonia generated by the pressure reduction, ammonia disposal devices 5, 6 that dispose of gaseous ammonia from the liquid/gas separation vessel 4, and a return line P5 that returns liquid ammonia from the liquid/gas separation vessel 4 to the tank 1.
F25B 45/00 - Dispositions pour l'introduction ou l'évacuation du frigorigène
F23G 7/08 - Procédés ou appareils, p.ex. incinérateurs, spécialement adaptés à la combustion de déchets particuliers ou de combustibles pauvres, p.ex. des produits chimiques de gaz d'évacuation ou de gaz nocifs, p.ex. de gaz d'échappement utilisant des torchères, p.ex. dans des cheminées
F23K 5/18 - Dispositifs de nettoyage ou de purge, p.ex. filtres
F23N 5/24 - Systèmes prévenant le développement de conditions anormales ou indésirables, c. à d. dispositifs de sécurité
A combustion system (1) comprises: a combustor (12) including a first combustion region (12a) and a second combustion region (12b) continuous with the first combustion region (12a) on a downstream side; a first burner (13) including an injection portion (21) for ammonia, serving as a first fuel, facing the first combustion region (12a), and a first injection portion (22a) for a second fuel that does not contain nitrogen atoms, facing the first combustion region (12a); a second burner (14) including a second injection portion (22b) for the second fuel, facing the second combustion region (12b); and a control device (18) for adjusting a second fuel flow ratio, which is a ratio between a flow rate of the second fuel injected from the first injection portion (22a) and a flow rate of the second fuel injected from the second injection portion (22b).
A gas turbine system (1) comprises: an ammonia tank (13) that stores ammonia; a combustor (12) connected to the ammonia tank (13); an exhaust flow passage (102) connected to the combustor (12); a boiler (14) provided in the exhaust flow passage (102); a steam turbine (16) connected to the boiler (14); a condenser (17) connected to the steam turbine (16); a seawater flow passage (107) (heat medium flow passage) which passes through the condenser (17); and a heat exchanger (20) which is disposed on the upstream side of the condenser (17) in the seawater flow passage (107), on the downstream side of the condenser (17) in the seawater flow passage (107), or in a flow passage (106) connecting the steam turbine (16), the condenser (17), and the boiler (14), and through which an ammonia flow passage (103) that connects the ammonia tank (13) and the combustor (12) passes.
F01K 9/00 - Ensembles fonctionnels de machines à vapeur caractérisés par des condenseurs disposés ou modifiés de façon à s'adapter aux machines motrices
F23K 5/00 - Alimentation en d'autres combustibles ou distribution d'autres combustibles pour les appareils à combustion
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
F02C 7/224 - Chauffage du combustible avant son arrivée au brûleur
With this compressor, a fluid compressed by a first impeller is further compressed with a second impeller. This compressor comprises: an impeller housing having a first housing that houses the first impeller and a second housing that houses the second impeller; and an interstage component that is coupled to the impeller housing and forms, together with the impeller housing, an interstage flow path for introducing fluid from the first impeller to the second impeller. The interstage flow path has at least one curved flow path. The curved flow path includes an inner peripheral side wall surface that curves on the inner peripheral side in a cross section through the centerline of the curved flow path, and an outer peripheral side wall surface that curves on the outer peripheral side in the cross section. One of the inner peripheral side wall surface and the outer peripheral side wall surface is formed on the impeller housing. The other wall surface is formed on the interstage component.
A refrigerant compressor according to the present invention compresses a refrigerant circulating in a refrigerant circulation system. The refrigerant compressor comprises: a rotary body having a shaft and a protruding portion which radially protrudes from the shaft and rotates together with the shaft; a non-contact-type bearing unit that rotatably supports the rotary body; a housing having an internal space in which the protruding portion is received; a suction port which opens to the internal space and through which the refrigerant is supplied into the internal space; a refrigerant flow path which communicates with the suction port and which is connected to an evaporator; an ejection port through which the refrigerant is discharged from the internal space; and a recirculation path that causes the internal space and the evaporator to communicate with each other through a recirculation port provided in the internal space. The recirculation port is positioned vertically lower than the protruding portion.
F04B 39/12 - Carcasses d'enveloppe; Cylindres; Culasses; Connexions des tubulures pour fluide
F04C 29/12 - Dispositions pour l'admission ou l'échappement du fluide de travail, p.ex. caractéristiques de structure de l'admission ou de l'échappement
A gas turbine system (1) comprises: an ammonia tank (13) in which ammonia is stored in a liquid state; a combustor (12) which is connected to the ammonia tank (13) and to which ammonia is supplied in a liquid state; an exhaust channel (102) which is connected to the combustor (12); a boiler (14) installed in the exhaust channel (102); and a heat exchanger (16) which is disposed on the downstream side of the boiler (14) in the exhaust channel (102) and through which an ammonia channel (103) connecting the ammonia tank (13) and the combustor (12) passes.
F02C 3/24 - Ensembles fonctionnels de turbines à gaz caractérisés par l'utilisation de produits de combustion comme fluide de travail utilisant un combustible, un oxydant ou un fluide de dilution particulier pour produire les produits de combustion le combustible ou l'oxydant étant liquide aux température et pression normales
F02C 6/18 - Utilisation de la chaleur perdue dans les ensembles fonctionnels de turbines à gaz à l'extérieur des ensembles eux-mêmes, p.ex. ensembles fonctionnels de chauffage à turbine à gaz
F02C 7/224 - Chauffage du combustible avant son arrivée au brûleur
This method for covering a fiber body comprises: an impregnation condition determination step for determining, when the fiber body is subjected to chemical vapor impregnation with a ceramic and covered thereby, the impregnation temperature and the impregnation pressure at which the film forming rate of the ceramic for the entire fiber body is maximized with respect to the impregnation temperature; and an impregnation step for supplying, to the fiber body, a film-formation gas containing a feedstock of the ceramic, and performing the chemical vapor impregnation at the impregnation temperature and the impregnation pressure determined during the impregnation condition determination step.
NATIONAL UNIVERSITY CORPORATION OKAYAMA UNIVERSITY (Japon)
Inventeur(s)
Suzuki Fuminori
Jikumaru Takehiro
Takemoto Masatsugu
Abrégé
This stator comprises: a stator iron core (11) including a back yoke (13) that is mounted around a shaft and surrounds a rotor (30), and a plurality of teeth (14) that are mounted at intervals in a circumferential direction of the shaft and attached to the back yoke (13); and a coil (12) wound around each tooth (14). Each of the teeth (14) has an inner peripheral surface facing the rotor (30), and includes a tip portion (14a) protruding forward and backward in a rotating direction of the rotor (30), and a base portion (14b) facing the back yoke (13). The inner peripheral surface (14c) includes a first region (14d), and a second region (14e). An average interval between the second region (14e) and an outermost trajectory of the rotor (30) is greater than an average interval between the first region (14d) and the outermost trajectory of the rotor (30).
This bus bar is to be used for an electric machine. The bus bar comprises a first electrically conductive bar and a first insulating part. The first electrically conductive bar has a first coupling portion and a first insulating portion. The first insulating part is provided on the surface of the first insulating portion. The first electrically conductive bar is coupled to and insulated from the second electrically conductive bar via the first insulating part.
A combustion device comprises a plurality of burners to which ammonia and second fuel are supplied, and a control device. The control device is configured such that in a first load region S1 including zero load, the control device supplies the second fuel to at least a first burner of the plurality of burners, and in a second load region in which the equivalence ratio ϕ of the first burner reaches a predetermined first value X1, the control device increases the ammonia flow rate R1 and reduces the second fuel flow rate R2 to the first burner so that the equivalence ratio ϕ of the total of ammonia and second fuel in the first burner is maintained at the first value X1, and supplies the second burner with the surplus second fuel not supplied to the first burner.
F02C 9/40 - Commande de l'alimentation en combustible spécialement adaptée à l'utilisation d'un combustible particulier ou de plusieurs combustibles
F02C 7/228 - Division du fluide entre plusieurs brûleurs
F23C 1/08 - Appareils à combustion spécialement adaptés à la combustion de plusieurs sortes de combustibles simultanément ou alternativement, au moins un des combustibles étant fluide ou étant un combustible solide en suspension dans l’air du combustible liquide et du combustible gazeux
F23R 3/36 - Alimentation en combustibles différents
58.
POWER SYSTEM ADJUSTING DEVICE AND POWER SYSTEM ADJUSTING PROGRAM
A microgrid of the present invention includes a solar power generation system, power customers, a power generation system, a hydrogen production system, and a storage battery system. An EMS comprises: a target presenting unit that presents a target power; a power acquiring unit that acquires confluent power obtained by adding the power output by the solar power generation system, the power consumed by the power customers, the power output by the power generation system, the power consumed by the hydrogen production system, and the power output or consumed by the storage battery system; and a command value generation unit that generates a command value so that the confluent power asymptotically approaches to the target power. The confluent power includes a long intermediate period component and a short period component. The command value generation unit outputs a command value corresponding to the long intermediate period component to the power generation system or the hydrogen production system. The command value generation unit outputs a command value corresponding to the short period component to the storage battery system.
H02J 3/00 - Circuits pour réseaux principaux ou de distribution, à courant alternatif
H02J 3/32 - Dispositions pour l'équilibrage de charge dans un réseau par emmagasinage d'énergie utilisant des batteries avec moyens de conversion
H02J 3/38 - Dispositions pour l’alimentation en parallèle d’un seul réseau, par plusieurs générateurs, convertisseurs ou transformateurs
H02J 3/46 - Dispositions pour l’alimentation en parallèle d’un seul réseau, par plusieurs générateurs, convertisseurs ou transformateurs contrôlant la répartition de puissance entre les générateurs, convertisseurs ou transformateurs
This ultrasonic diagnostic device comprises a sheet material that can be bonded to a surface of a living body and has a two-dimensional code on the surface of the sheet material, the two-dimensional code indicating a position in the surface of the sheet material, an ultrasonic search unit that emits ultrasonic waves to the living body having the bonded sheet material and receives an ultrasonic echo reflected in the living body, a probe that is movable on the surface of the living body through the sheet material and is provided with the ultrasonic search unit, an imaging device that is provided at the probe and is capable of imaging the two-dimensional code, a tilt angle sensor provided at the probe, a probe identification unit that identifies the position of the probe on the surface of the living body on the basis of the two-dimensional code imaged by the imaging device and identifies the tilt angle of the probe with respect to the vertical direction on the basis of the result of detection by the tilt angle sensor, and an image generation unit that generates a diagnostic image indicating the result of an ultrasonic diagnosis of the living body on the basis of the ultrasonic echo.
A flare stack 10 is provided with: a main burner 11 to which ammonia is supplied; a pilot burner 12 to which ammonia is supplied; a first catalyst 13, which is disposed, in the flow of ammonia, upstream of the pilot burner 12 and decomposes the ammonia supplied to the pilot burner 12 to produce reformed fuel containing hydrogen; and a heater 14 for heating the first catalyst 13.
F17C 13/00 - RÉCIPIENTS POUR CONTENIR OU EMMAGASINER DES GAZ COMPRIMÉS, LIQUÉFIÉS OU SOLIDIFIÉS; GAZOMÈTRES À CAPACITÉ FIXE; REMPLISSAGE OU VIDAGE DE RÉCIPIENTS DE GAZ COMPRIMÉS, LIQUÉFIÉS OU SOLIDIFIÉS - Détails des récipients ou bien du remplissage ou du vidage des récipients
C01B 3/04 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par décomposition de composés inorganiques, p.ex. de l'ammoniac
F23C 13/02 - Appareils dans lesquels la combustion a lieu en présence de matériau catalytique caractérisés par des dispositions pour amorcer le processus, p.ex. pour amener le matériau catalytique à la température de fonctionnement
F23G 7/08 - Procédés ou appareils, p.ex. incinérateurs, spécialement adaptés à la combustion de déchets particuliers ou de combustibles pauvres, p.ex. des produits chimiques de gaz d'évacuation ou de gaz nocifs, p.ex. de gaz d'échappement utilisant des torchères, p.ex. dans des cheminées
F23J 15/00 - Aménagement des dispositifs de traitement de fumées ou de vapeurs
An injection nozzle 100 comprises: an inner wall 101 that has a cylindrical shape; a first outer wall 102 that has a cylindrical shape and is formed as integrated with the inner wall 101 via a connection portion 107; a fuel passage 108 that has an annular shape and is formed between the inner wall 101 and the first outer wall 102; and an inner-side air passage 104 that is formed on the inner side of the inner wall 101.
This rotating electric machine 1 comprises: a cylindrical stator 2 that includes a stator core 20 and a stator coil 21; a rotor 3 that is rotatably provided in the stator 2; a case 10 that houses the stator 2 and the rotor 3; and a cylindrical partition wall 11 that is formed of an electrically conductive metal, and that partitions the internal space of the case 10 into an inner space X for the stator 2 and a container space Y which houses a coil end 21b of the stator 2 protruding from an end portion of the stator core of the stator coil 21 laterally in the axial direction of the rotating shaft of the rotor and in which a cooling liquid is circulated. At least a portion of the partition wall 11 closer to the stator core 20 is divided into a plurality of small segment portions 111a by formation of slits 110a.
H02K 9/197 - 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 dans lesquels l'espace du rotor ou du stator est étanche au fluide, p.ex. pour pourvoir le rotor et le stator d'agents de refroidissement différents
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
This rotating machine is configured so that a surface magnet-type rotor is rotateably disposed on the inner side of a stator. The rotor comprises: a shaft member disposed along the rotational axis; and a magnet part that is provided on the outer circumferential side of the shaft member and that alternatingly forms different magnetic poles along the circumferential direction. In a cross-section orthogonal to the rotational axis, the shaft member is formed so as to have different cross-sectional areas with respect to the d-axis direction of the magnet part and the q-axis direction of the magnet part.
This combustion device 10 comprises a burner plate 14a that faces a combustion chamber, a plurality of injection hole groups 30 that are each formed as a ring in the burner plate 14a, and a ring-shaped slit 50 that is formed between the plurality of injection hole groups 30.
In the present invention, an electric machine system comprises an electric machine and a controller. The electric machine has a stator including a first winding set and a second winding set, and a rotor which includes a magnet and is capable of rotating rellatively with respect to the stator. The controller controls input and output of a first voltage to the first winding set, and input and output of a second voltage to the second winding set. The controller includes an output unit and a setting unit. The output unit outputs a first signal for the input and output of the first voltage, and a second signal for the input and output of the second voltage. The setting unit sets a difference in phase between the first signal and the second signal. The setting unit changes the phase difference according to changes in the magnitude of a first current flowing through the first winding set and/or a second current flowing through the second winding set.
H02P 25/22 - Enroulements multiples; Enroulements pour plus de trois phases
H02P 27/06 - Dispositions ou procédés pour la commande de moteurs à courant alternatif caractérisés par le type de tension d'alimentation utilisant une tension d’alimentation à fréquence variable, p.ex. tension d’alimentation d’onduleurs ou de convertisseurs utilisant des convertisseurs de courant continu en courant alternatif ou des onduleurs
A vibration testing jig (10) comprises: a base (11) that includes a placement surface (11a) on which an end portion of a test piece is placed, and that is installed on a vibration table; a top plate (12) including a slot (16) having an inner surface (16a) that presses the end portion of the test piece toward the placement surface (11a), and a wedge mating groove which is positioned in an extending direction of the slot (16) and which communicates with the slot (16), the top plate (12) being placed on the base (11), spaced apart therefrom; a wedge portion (23) which mates with the wedge mating groove (13); and a plurality of pressing members (14) which are disposed along the slot (16) to press the top plate (12) toward the base (11). An inner surface of the wedge mating groove (13) includes a bottom surface (13a) and a pair of holding surfaces (13s, 13s) which are positioned on both sides, in a width direction, of the wedge mating groove (13) and which face the bottom surface (13a) across an internal space of the wedge mating groove (13), and the wedge portion (23) is in surface contact with the bottom surface (13a) and the pair of holding surfaces (13s, 13s).
G01N 3/32 - Recherche des propriétés mécaniques des matériaux solides par application d'une contrainte mécanique en appliquant des efforts répétés ou pulsatoires
The flow rate adjustment device 200 comprises: an adjusting part 210A comprising piping 220 and a sealing plate 230 provided below the outlet 224 of the piping 220 and having a sealing surface 232; and a mover part 250 for moving the sealing plate 230 between a sealing position in which the sealing surface 232 of the sealing plate 230 is located vertically below the outlet 224 of the piping 220, and a retracted position in which the sealing surface 232 of the sealing plate 230 is retracted from vertically below the outlet 224 of the piping 220.
B01J 4/02 - Dispositifs d'alimentation; Dispositifs de commande d'alimentation ou d'évacuation pour introduire des quantités mesurées de réactifs
F23G 5/30 - Procédés ou appareils, p.ex. incinérateurs, spécialement adaptés à la combustion de déchets ou de combustibles pauvres avec combustion dans un lit fluidisé
F28D 19/02 - Appareils échangeurs de chaleur de régénération dans lesquels l'agent ou la masse intermédiaire de transfert de chaleur est amené successivement en contact avec chacune des sources de potentiel calorifique utilisant des particules granulées
F23C 10/32 - Dispositifs de commande spécialement adaptés aux appareils de combustion à lit fluidisé pour commander le niveau du lit ou la quantité de matière dans le lit en réglant le taux de recirculation des particules séparées des gaz de fumée
F24S 60/00 - Agencements pour l’emmagasinage de la chaleur collectée par les collecteurs de chaleur solaire
F28D 20/00 - Appareils ou ensembles fonctionnels d'accumulation de chaleur en général; Appareils échangeurs de chaleur de régénération non couverts par les groupes ou
68.
INDUSTRIAL WASTEWATER TREATMENT SYSTEM, USE FOR INDUSTRIAL WASTEWATER TREATMENT SYSTEM, INDUSTRIAL WASTEWATER TREATMENT METHOD, AND WASTEWATER TREATMENT PROCESS
An industrial wastewater system includes an ozone generator (100), a microbubble generator (200), an ozone catalytic oxidation reactor (300), an aeration/deoxygenation tank (400), and an aerobic biofilm reactor (500) connected in the stated order, a portion of dissolved oxygen and residual dissolved ozone being removed in the aeration/deoxygenation tank (400) from wastewater that is discharged after having undergone ozone microbubble catalytic oxidation treatment in the ozone catalytic oxidation reactor (300).
A vibration test jig (10) comprises: a base (11) that includes a placing surface (11a) on which an end portion of an object under test is placed and that is installed on a shaker table; a top plate (12) that has a slot (16) having an inner surface (16a) for pressing the end portion of the object under test toward the placing surface (11a) and that is placed over the base (11) with a space therebetween; a reinforcement part (13) that is placed along the slot (16); and a plurality of pressing members (14) that press the reinforcement unit (13) toward the base (11) and that are arranged along the slot (16). The thickness of the reinforcement unit (13) varies along the slot (16) according to the magnitude of fluctuating load generated in the top plate (12) during shaking.
G01N 3/32 - Recherche des propriétés mécaniques des matériaux solides par application d'une contrainte mécanique en appliquant des efforts répétés ou pulsatoires
70.
METHANE GENERATION SYSTEM AND METHANE GENERATION METHOD
JAPAN INTERNATIONAL RESEARCH CENTER FOR AGRICULTURAL SCIENCES (Japon)
Inventeur(s)
Ishii Kosuke
Yamashita Masaharu
Kitano Mikako
Yajima Tomomi
Sakai Shinichi
Kosugi Akihiko
Uke Ayaka
Abrégé
This methane generation system (1) comprises an alkali treatment unit (20) for bringing a lignocellulose biomass and an alkali solution into contact with one another to generate an alkali treatment solution containing a first solid component and a first liquid component, a saccharification unit (40) for decomposing the cellulose and/or hemicellulose derived from the lignocellulose biomass contained in the alkali treatment solution using saccharifying bacteria to generate a saccharified solution containing a second liquid component, an acid generation unit (60) for generating an organic acid from a mixed solution containing the first liquid component and the second liquid component using acidogenic bacteria, and a methane generation unit (70) for generating methane from the organic acid using methanogens.
JAPN INTERNATIONAL RESEARCH CENTER FOR AGRICULTURAL SCIENCES (Japon)
IHI CORPORATION (Japon)
Inventeur(s)
Kosugi Akihiko
Uke Ayaka
Yamashita Masaharu
Kitano Mikako
Ishii Kosuke
Abrégé
Provided is a method for decomposing a protein-containing cellulose-based fiber material such as barley refuses. A protein-containing cellulose-based fiber material is decomposed with a microorganism belonging to the genus Paenibacillus. It becomes possible to decompose a protein-containing cellulose-based fiber material only by the microorganism, and it also becomes possible to decompose the protein and the cellulose-based fiber material in a single stage. Furthermore, because the treatment is performed with the microorganism under an anaerobic condition, the fermentation of an organic substance contained in the protein-containing cellulose-based fiber material rarely occurs and therefore the amount of discharged carbon dioxide is reduced.
C12N 1/00 - Micro-organismes, p.ex. protozoaires; Compositions les contenant; Procédés de culture ou de conservation de micro-organismes, ou de compositions les contenant; Procédés de préparation ou d'isolement d'une composition contenant un micro-organisme; Leurs milieux de culture
A heat exchange structure (50) comprises: a flow path (51) that is thermally coupled to other flow paths stacked together in the stacking direction; and a path configuration part (60) provided in the flow path (51). The path configuration part (60) includes: a plurality of walls (61) that constitutes a main flow path for fluid; and a porous body (62) that is provided in the path and permeable to the fluid.
F28F 3/06 - Eléments ou leurs ensembles avec moyens pour augmenter la surface de transfert de chaleur, p.ex. avec des ailettes, avec des évidements, avec des ondulations les moyens pouvant être fixés sur l'élément
B01J 19/24 - Réacteurs fixes sans élément interne mobile
F28D 9/00 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes en forme de plaques ou de laminés pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation
F28F 21/08 - Structure des appareils échangeurs de chaleur caractérisée par l'emploi de matériaux spécifiés de métal
73.
MOTOR ROTOR, MOTOR ROTOR PRODUCTION METHOD, MOTOR, AND ELECTRICAL SUPERCHARGER
This rotor comprises: an inner sleeve that includes a holding part for holding a shaft which has a rotation axis and a first gap part including a portion which does not contact the shaft; a magnet that has a cylindrical shape provided with a magnet through hole into which the inner sleeve is inserted, the inner sleeve being disposed in magnet through hole; and a first end ring that has an end ring through hole into which the inner sleeve is press fitted. The holding part and the first gap part are each provided with respective through hole parts which insert into each other and in which the shaft is disposed. The inner diameter of the through hole part provided in the first gap part is greater than the inner diameter of the through hole part provided in the holding part. The first end ring is disposed in the first gap part.
H02K 15/16 - Procédés ou appareils spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation des machines dynamo-électriques Équilibrage des rotors
H02K 21/14 - Moteurs synchrones à aimants permanents; Génératrices synchrones à aimants permanents avec des induits fixes et des aimants tournants avec des aimants tournant à l'intérieur des induits
74.
ELECTRODE FOR ELECTRICAL DISCHARGE SURFACE TREATMENT AND METHOD FOR PRODUCING SAME
This electrode (15) comprises a sintered body composed of a powder having any of a Co-based alloy, an Ni-based alloy, and an Fe-based alloy as a component. The sintered body includes a fine-grained powder that has a median diameter of 3.0 μm or less and is formed into scales. The specific surface area of the sintered body has a value within the range from 0.8 m2/g to 10 m2/g. The electrical resistivity of the sintered body has a value within the range from 3 mΩ∙cm to 30 mΩ∙cm.
B22F 5/00 - Fabrication de pièces ou d'objets à partir de poudres métalliques caractérisée par la forme particulière du produit à réaliser
B22F 1/052 - Poudres métalliques caractérisées par la dimension ou la surface spécifique des particules caractérisées par un mélange de particules de dimensions différentes ou par la distribution granulométrique des particules
B22F 1/06 - Poudres métalliques caractérisées par la forme des particules
This carbon dioxide recovering system (1) comprises: a first adsorption tower (10) that accommodates a first adsorbent (14); and a second adsorption tower (40) that accommodates a second adsorbent (41). When the second adsorbent (41) comes into contact with a first concentrated gas supplied from the first adsorption tower (10), the second adsorbent (41) adsorbs carbon dioxide in the first concentrated gas. When heated in a second heating part (44), the second adsorbent (41) desorbs carbon dioxide adsorbed by the second adsorbent (41) and produces a second concentrated gas containing carbon dioxide desorbed from the second adsorbent (41) and having a carbon dioxide concentration higher than the first concentrated gas.
B01D 53/04 - SÉPARATION Épuration chimique ou biologique des gaz résiduaires, p.ex. gaz d'échappement des moteurs à combustion, fumées, vapeurs, gaz de combustion ou aérosols par adsorption, p.ex. chromatographie préparatoire en phase gazeuse avec adsorbants fixes
In the present invention, a motor device comprises: a motor driven by AC drive power; an inverter that supplies drive power to the motor; and a controller that generates pulse signals for controlling the drive power, using a carrier and a first command signal indicating the target of the drive power. The controller is provided with a carrier frequency setting unit that sets the carrier frequency of the carrier using a second command signal indicating the target of the drive power. The carrier frequency setting unit sets the carrier frequency in the section corresponding to a first phase range in one cycle of the second command signal to be lower than the carrier frequency in the section corresponding to a second phase range other than the first phase range.
H02P 27/08 - Dispositions ou procédés pour la commande de moteurs à courant alternatif caractérisés par le type de tension d'alimentation utilisant une tension d’alimentation à fréquence variable, p.ex. tension d’alimentation d’onduleurs ou de convertisseurs utilisant des convertisseurs de courant continu en courant alternatif ou des onduleurs avec modulation de largeur d'impulsions
H02P 21/06 - Commande basée sur le flux rotorique impliquant l’utilisation de détecteurs de position ou de vitesse du rotor
77.
CONNECTION ANGLE DETECTION APPARATUS FOR COMBINATION VEHICLE, COMBINATION VEHICLE, AND METHOD FOR DETECTING CONNECTION ANGLE OF COMBINATION VEHICLE
A connection angle detection apparatus (30A-30D) acquires shape information of target members (40-1 to 40-6) having a prescribed shape installed in a first vehicle (3, 2) through use of a shape information acquisition device (20) installed in a second vehicle (2, 3), and detects, as the connection angle between the first vehicle (3, 2) and the second vehicle (2, 3), the angle formed by a direction specified on the basis of a prescribed condition from the acquired shape information of the target members (40-1 to 40-6) and the maintained front-rear direction of a vehicle body of the second vehicle (2, 3). The target members (40-1 to 40-6) are installed in the first vehicle (3, 2) so that the specified direction matches the front-rear direction of the vehicle body of the first vehicle (3, 2).
This turbine T is equipped with: a shaft; a turbine wheel attached to one side of the shaft; a housing section for housing the turbine wheel; a first turbine scroll channel 31 which is connected to the housing section and is wound on the outside of the turbine wheel in the radial direction; a second turbine scroll channel 33 which is connected to the housing section, is wound on the outside of the turbine wheel in the radial direction, and is positioned on the one side of the first turbine scroll channel; a first tongue part 43 which is provided at a location facing the downstream end of the first turbine scroll channel 31, and is angled one way in the circumferential direction of the turbine wheel toward the one side; and a second tongue part 51 which is provided at a location facing the downstream end of the second turbine scroll channel 33, and is angled the other way in the circumferential direction of the turbine wheel toward said one side.
F02B 39/00 - MOTEURS À COMBUSTION INTERNE À PISTONS; MOTEURS À COMBUSTION EN GÉNÉRAL - Parties constitutives, détails ou accessoires non couverts par les groupes , et relatifs aux pompes d'alimentation ou de balayage entraînées
F01D 9/02 - Injecteurs; Logement des injecteurs; Aubes de stator; Tuyères de guidage
F01D 25/24 - Carcasses d'enveloppe; Eléments de la carcasse, p.ex. diaphragmes, fixations
This object holding structure comprises: an inner member (20) including an end surface (21), a first pinching surface (23) located radially outward of the end surface (21), and a plurality of hooks (25) arranged on the end surface (21) so as to be spaced apart from each other in the circumferential direction; an outer member (30) that is located radially outward of the inner member (20) and that includes an end surface (31) and a second pinching surface (33) opposing the first pinching surface (23) with an object (60) therebetween; a key plate (40) provided so as to be able to make contact with the end surface (23) and the end surface (31); and a retaining ring (50) to be held between the key plate (40) and claws (25b) of the hooks (25). The key plate (40) includes a first ring (41) facing the end surface (31), a second ring (42) provided radially inward of the hooks (25), and a plurality of inner tabs (43) that are located between the hooks (35) and that couples the first ring (41) and the second ring (42).
A self-position estimation device (200) is provided with: map information acquisition units (202, 204) for acquiring map information in a storage facility (10) generated on the basis of shape information of objects (X, Y) and storage status information of the objects (X, Y) in the storage facility (10); an environment information acquisition unit (201) for acquiring environment information on the surroundings; and, a self-position estimation unit (203) for estimating a self-position on the basis of the map information acquired by the map information acquisition units (202, 204) and the environment information acquired by the environment information acquisition unit (201).
This supercharger TC comprises: an actuator housing 110 in which an actuator that drives a movable member is disposed; a compressor housing 7 disposed adjacent to the actuator housing 110; and a through-hole 114a which is formed in a region on the compressor housing 7 side in the actuator housing 110, and extends vertically downward when the actuator housing 110 is mounted.
A combustion device (100) comprises: an ammonia injection nozzle (41) with an injection port (41c) facing the interior space of a furnace (2); a pulverized coal injection nozzle (43) with an injection port (43b) facing the interior space of the furnace (2); an adjustment mechanism (7) that adjusts the injection velocity of ammonia from the ammonia injection nozzle (41); and a control device (8) that controls the operation of the adjustment mechanism (7) so that the injection velocity of ammonia from the ammonia injection nozzle (41) is faster than the injection velocity of pulverized coal from the pulverized coal injection nozzle (43).
F23C 1/12 - Appareils à combustion spécialement adaptés à la combustion de plusieurs sortes de combustibles simultanément ou alternativement, au moins un des combustibles étant fluide ou étant un combustible solide en suspension dans l’air du combustible gazeux et du combustible pulvérulent
F23C 99/00 - Matière non prévue dans les autres groupes de la présente sous-classe
F23D 14/22 - Brûleurs à gaz sans prémélangeur, c. à d. dans lesquels le combustible gazeux est mélangé à l'air de combustion à l'arrivée dans la zone de combustion avec des conduits d'alimentation en air et en gaz séparés, p.ex. avec des conduits disposés parallèlement ou se croisant
F23N 1/00 - Régulation de l'alimentation en combustible
83.
OBSTACLE DETECTING DEVICE FOR ARTICULATED VEHICLE, DRIVING SYSTEM FOR ARTICULATED VEHICLE, AND OBSTACLE DETECTING METHOD FOR ARTICULATED VEHICLE
B60R 21/00 - Dispositions ou équipements sur les véhicules pour protéger les occupants ou les piétons ou pour leur éviter des blessures en cas d'accidents ou d'autres incidents dus à la circulation
In a vibration detection apparatus (1), a plurality of blades (7) formed integrally with the outer periphery of a disk (5) of a blisk (3) are respectively excited by a plurality of excitation signals from progressive waves or regressive waves, the phases of which are sequentially offset in an advancing direction or a delay direction, a laser beam for detecting vibration of the plurality of blades is output, a reflected beam from an object irradiated by the laser beam is received, the optical paths of the output laser beam (LB) and the reflected beam are changed in accordance with a vibration detection position of a blade (7) designated as the irradiation object of the laser beam (LB), and a vibration response to excitation of each blade (7) is detected from the reflected beam and the laser beam (LB) corresponding to each excited blade (7).
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
This electric-powered machine system is provided with an electric-powered machine, an electric power converter, and a control unit. The electric-powered machine comprises a stator including a coil, and a rotor which includes a magnet and which is capable of rotating about the stator. The electric power converter inputs electric power to the coil of the electric-powered machine. The control unit controls the electric power converter. The control unit comprises an output unit and an adjusting unit. The output unit outputs a control signal for operating the electric power converter to the electric power converter. The adjusting unit adjusts a phase of the control signal that determines the timing at which electric power is input to the coil of the electric-powered machine. The adjusting unit adjusts the phase such that the magnitude of the electric power tends toward an extreme value.
An electric machine system 1 comprises: an electric machine 2 that includes a rotor 21 and a coil 221; a power converter 3 that outputs an output current to the coil 221 of the electric machine 2; and a controller 4 that controls the power converter 3. The controller 4 comprises: a signal output unit 42 that outputs, to the power converter 3, a signal for controlling the form of an output current; and an abnormality detection unit 41 that, in an abnormal situation in which the occurrence of a failure current generated in the coil 221 by rotation of the rotor 21 should be inhibited, receives an abnormality signal θ1 indicating the abnormal situation. When the abnormality detection unit 41 has received the abnormality signal, the signal output unit 42 outputs a demagnetization control signal φ2 to the power converter 3. In accordance with input of the demagnetization control signal φ2, the power converter 3 causes a demagnetization current to flow through the coil 221 for a demagnetization magnetic flux D3 that demagnetizes a permanent magnet 211 of the rotor 21.
This spool valve (1) comprises an axially extending sleeve (10) including a working fluid inlet port (11) and an outlet port (12), a spool (20) housed within the sleeve (10) so as to be capable of axial movement, a biasing device (30) including a spring (31) as a biasing member that presses a proximal end (20a) of the spool (20) toward a distal end (20b) of the spool (20), and a working fluid pressure detection port (56) that opens toward the distal end (20b) of the spool (20). The outlet port (12) is constituted of a plurality of slits (16), and the plurality of slits (16) are disposed at intervals in the circumferential direction of the sleeve (10) and are made to extend in the axial direction.
F16K 3/32 - Dispositifs pour le réglage additionnel du débit
F16K 3/24 - Robinets-vannes ou tiroirs, c. à d. dispositifs obturateurs dont l'élément de fermeture glisse le long d'un siège pour l'ouverture ou la fermeture à faces d'obturation en forme de surfaces de solides de révolution avec corps de tiroir cylindrique
A spool valve (1) comprises: a sleeve (10) including an inlet port (11) and an outlet port (12); a spool (20) received in the sleeve (10); a biasing device (30) that presses a proximal end portion (20a) of the spool (20) toward a distal end portion (20b) of the spool (20); and a pressure detection port (56) that opens toward the distal end portion (20b). The spool (20) includes: a first land portion (21) positioned between the pressure detection port (56) and the inlet port (11); a second land portion (22); a groove portion (23) positioned between the first land portion (21) and the second land portion (22); a recessed portion (27) formed in the outer peripheral surface of the second land portion (22); and a communication passage (28) for a working fluid which is formed in the second land portion (22) and which allows communication between the groove portion (23) and the recessed portion (27). In the sleeve (10), a through hole (50) that faces the recessed portion (27) of the spool (20) is formed.
F16K 3/26 - Robinets-vannes ou tiroirs, c. à d. dispositifs obturateurs dont l'élément de fermeture glisse le long d'un siège pour l'ouverture ou la fermeture à faces d'obturation en forme de surfaces de solides de révolution avec corps de tiroir cylindrique le passage du fluide se faisant par le corps du tiroir
F16K 3/24 - Robinets-vannes ou tiroirs, c. à d. dispositifs obturateurs dont l'élément de fermeture glisse le long d'un siège pour l'ouverture ou la fermeture à faces d'obturation en forme de surfaces de solides de révolution avec corps de tiroir cylindrique
F16K 3/32 - Dispositifs pour le réglage additionnel du débit
89.
HYDROCARBON PRODUCTION EQUIPMENT, HYDROCARBON PRODUCTION SYSTEM, CONTROLLER FOR HYDROCARBON PRODUCTION DEVICE, AND METHOD FOR PRODUCING HYDROCARBON
In the present invention, hydrocarbon production equipment comprises a first reaction device that generates a first intermediate gas by accepting a raw material gas and reacting the raw material gas using a catalyst, a second reaction device that generates a second intermediate gas by reacting the first intermediate gas using a catalyst, a heat supplier with which heat for heating the catalyst can be supplied to a reactor and with which heat for heating the catalyst can be supplied to a reactor, and a controller for controlling the operation of the heat supplier. The controller selectively outputs to the heat supplier a first control signal that causes heat to be supplied to each of the first reaction device and the second reaction device or a second control signal that causes heat to be supplied to only one of the first reaction device and the second reaction device. The controller selects either the first control signal or the second control signal on the basis of the amount of hydrogen contained in the raw material gas.
C07C 1/00 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure
C07C 1/12 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir d'oxydes de carbone à partir d'anhydride carbonique avec de l'hydrogène
B01J 8/06 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solides; Appareillage pour de tels procédés avec des particules immobiles, p.ex. dans des lits fixes les particules solides étant disposées dans des tubes
C25B 9/00 - PROCÉDÉS ÉLECTROLYTIQUES OU ÉLECTROPHORÉTIQUES POUR LA PRODUCTION DE COMPOSÉS ORGANIQUES OU MINÉRAUX, OU DE NON-MÉTAUX; APPAREILLAGES À CET EFFET Éléments de structure des cellules; Assemblages d'éléments de structure, p.ex. assemblages d'électrode-diaphragme; Caractéristiques des cellules relatives aux procédés
C25B 1/04 - Hydrogène ou oxygène par électrolyse de l'eau
90.
METHOD FOR RECOVERING METAL FROM METAL ELEMENT-CONTAINING SUBSTANCE
This method for recovering a metal from a metal element-containing substance comprises: a step in which a solution containing metal ions or metal complex ions is obtained by bringing a dissolution liquid that contains nitric acid and a salt into contact with the metal element-containing substance; and a step in which a metal is generated by immersing algae in the solution containing metal ions or metal complex ions. With respect to this method for recovering a metal from a metal element-containing substance, the concentration of the nitric acid in the dissolution liquid that contains nitric acid and a salt is 2% by mass to 50% by mass, and the concentration of the salt in the dissolution liquid that contains nitric acid and the salt is 0.5% by mass or more.
C22B 3/18 - Extraction de composés métalliques par voie humide à partir de minerais ou de concentrés à l'aide de micro-organismes ou d'enzymes, p.ex. de bactéries ou d'algues
B01J 20/22 - Compositions absorbantes ou adsorbantes solides ou compositions facilitant la filtration; Absorbants ou adsorbants pour la chromatographie; Procédés pour leur préparation, régénération ou réactivation contenant une substance organique
C12N 1/12 - Algues unicellulaires; Leurs milieux de culture
C22B 3/06 - Extraction de composés métalliques par voie humide à partir de minerais ou de concentrés par lixiviation dans des solutions inorganiques acides
C22B 3/18 - Extraction de composés métalliques par voie humide à partir de minerais ou de concentrés à l'aide de micro-organismes ou d'enzymes, p.ex. de bactéries ou d'algues
B01D 15/00 - Procédés de séparation comportant le traitement de liquides par des adsorbants ou des absorbants solides; Appareillages pour ces procédés
B01J 20/24 - Composés macromoléculaires d'origine naturelle, p.ex. acides humiques ou leurs dérivés
C02F 1/28 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par absorption ou adsorption
C12N 1/12 - Algues unicellulaires; Leurs milieux de culture
This supercharger comprises: a housing 3; a plurality of covers 31, 32, 33 that each surround at least part of an outer surface 30 of the housing 3, the plurality of covers 31, 32, 33 including at least a first cover 31 and a second cover 32, and each of the plurality of covers 31, 32, 33 accommodating a heat insulation material between the covers 31, 32, 33 and the outer surface 30 of the housing 3; and a linking piece 34 that is disposed directly on the outer surface 30 of the housing 3 and that links the first cover 31 and the second cover 32.
F02B 39/00 - MOTEURS À COMBUSTION INTERNE À PISTONS; MOTEURS À COMBUSTION EN GÉNÉRAL - Parties constitutives, détails ou accessoires non couverts par les groupes , et relatifs aux pompes d'alimentation ou de balayage entraînées
93.
TERMINAL CONNECTION STRUCTURE OF MOTOR CASING AND ROTATING MACHINE
This terminal connection structure of a motor casing in which a multi-phase AC motor is housed comprises: a plurality of terminal bases provided on the motor casing; a plurality of terminal portions that electrically conductively connect to the respective phases of the AC motor and pass through the respective terminal bases; and a plurality of terminal surfaces which are the outer end surfaces of the respective plurality of terminal bases and in which the terminal portions are exposed. The plurality of terminal surfaces are provided side by side along a direction intersecting with the rotating axis line of the AC motor, and a step is provided in the radial direction of the motor casing at least between one of the terminal surfaces and another terminal surface.
H02K 5/22 - Parties auxiliaires des enveloppes non couvertes par les groupes , p.ex. façonnées pour former des boîtes à connexions ou à bornes
H01R 9/00 - Association structurelle de plusieurs éléments de connexion électrique isolés les uns des autres, p.ex. barrettes de raccordement ou blocs de connexion; Bornes ou plots de raccordement montés sur un socle ou dans un coffret; Leurs socles
This centrifugal compressor is provided with: a housing chamber which is formed in the area of a compressor housing upstream of the blades of a compressor impeller in the air intake direction; a movable member which is arranged in the housing chamber and which can move between a protruding position where the movable member protrudes into the intake flow path and a retracted position where the movable member is retracted from the intake flow path; multiple slits (340) which are formed nearer to the blades than to the housing chamber in the compressor housing, and which communicate with the intake flow path; multiple partition walls 320 which partition the slits 340 in the circumferential direction; and an outer peripheral wall 330 which connects the outer diameter ends of the multiple partition walls 320.
F04D 29/44 - Moyens de guidage du fluide, p.ex. diffuseurs
F04D 29/46 - Moyens de guidage du fluide, p.ex. diffuseurs réglables
F02B 39/00 - MOTEURS À COMBUSTION INTERNE À PISTONS; MOTEURS À COMBUSTION EN GÉNÉRAL - Parties constitutives, détails ou accessoires non couverts par les groupes , et relatifs aux pompes d'alimentation ou de balayage entraînées
The present invention comprises a turbine housing in which a scroll flow passage and a tongue part of the scroll flow passage are formed, and a variable nozzle unit arranged inside the turbine housing and having a plurality of nozzle vanes arranged in a gas inflow passage into which gas flows from the scroll flow passage, wherein at least the nozzle vane among the nozzle vanes which is arranged at a position closest to the tongue part is a special vane different from the other nozzle vanes, and the width of the special vane in the rotational axis direction is smaller than the width of the other nozzle vanes.
F02B 37/24 - Commande des pompes en utilisant des pompes ou des turbines à aubes distributrices réglables
F02B 39/00 - MOTEURS À COMBUSTION INTERNE À PISTONS; MOTEURS À COMBUSTION EN GÉNÉRAL - Parties constitutives, détails ou accessoires non couverts par les groupes , et relatifs aux pompes d'alimentation ou de balayage entraînées
This centrifugal compressor comprises: a compressor housing 100 including an intake flow path 130; a compressor impeller 9 disposed in the intake flow path 130; an accommodating chamber AC formed further toward an upstream side of the compressor housing 100, in the direction of flow of intake air, than the compressor impeller 9; a movable member disposed in the accommodating chamber AC; and an annular passage 420 which is formed in the compressor housing 100, wherein the annular passage 420 communicates with the outside of the compressor housing 100 and circulates a heat medium supplied from outside the compressor housing 100, and at least a portion of the annular passage is disposed between the accommodating chamber AC and a leading edge LE of the compressor impeller 9.
A gas turbine system 1 is provided with: a combustor 13; a suction flow path 101 connected to the combustor 13; an exhaust flow path 102 connected to the combustor 13; a compressor 11a provided in the suction flow path 101; a turbine 11b provided in the exhaust flow path 102; an ammonia tank 14; and a hydrogen generation/separation device 16 which has an ammonia supply port 16a connected to the ammonia tank 14 and a hydrogen discharge port 16b connected to the combustor 13, is arranged on the downstream side of the turbine 11b in the exhaust flow path 102 or on the downstream side of the compressor 11a in the suction flow path 101, and has an ammonia decomposition catalyst and a hydrogen separation membrane.
F02C 7/22 - Systèmes d'alimentation en combustible
F02C 3/22 - Ensembles fonctionnels de turbines à gaz caractérisés par l'utilisation de produits de combustion comme fluide de travail utilisant un combustible, un oxydant ou un fluide de dilution particulier pour produire les produits de combustion le combustible ou l'oxydant étant gazeux aux température et pression normales
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
F02C 7/00 - Caractéristiques, parties constitutives, détails ou accessoires non couverts dans, ou d'un intérêt plus général que, les groupes ; Entrées d'air pour ensembles fonctionnels de propulsion par réaction
98.
ROAD SURFACE STATE DETERMINATION SYSTEM, ROAD SURFACE STATE DETERMINATION DEVICE, VEHICLE DRIVING CONTROL DEVICE, AND ROAD SURFACE STATE DETERMINATION METHOD
A road surface state determination system (50) comprises: a distance measurement sensor (10) that is installed at a predetermined position of a vehicle X, projects light to a road surface in a measurement area in the surroundings of the vehicle X, receives reflected light of the projected light, and measures the distance to the road surface on the basis of a light-receiving state of the reflected light; and a determination unit (413) for determining that the road surface is wet when the reflected light has not been received by the distance measurement sensor (10) or when the measurement value by the distance measurement sensor is greater than a predetermined value.
G08G 1/00 - Systèmes de commande du trafic pour véhicules routiers
B60W 40/06 - Calcul ou estimation des paramètres de fonctionnement pour les systèmes d'aide à la conduite de véhicules routiers qui ne sont pas liés à la commande d'un sous-ensemble particulier liés aux conditions ambiantes liés à l'état de la route
B60T 8/172 - Détermination des paramètres de commande utilisés pour la régulation, p.ex. par des calculs impliquant des paramètres mesurés ou détectés
G01N 21/47 - Dispersion, c. à d. réflexion diffuse
99.
SOLID FUEL PRODUCTION SYSTEM AND SOLID FUEL PRODUCTION METHOD
JAPAN INTERNATIONAL RESEARCH CENTER FOR AGRICULTURAL SCIENCES (Japon)
OPTERAZ SDN BHD (Malaisie)
Inventeur(s)
Yamashita Masaharu
Kosugi Akihiko
Chuah Keng Hua
Abrégé
A solid fuel production system (1) includes a continuous explosion unit (13) configured to explode a lignocellulosic biomass by using water contained in the lignocellulosic biomass. The solid fuel production system (1) includes a dryer (14) configured to dry the lignocellulosic biomass exploded in the continuous explosion unit (13). The solid fuel production system (1) includes a shaping unit (15) configured to shape the lignocellulosic biomass dried in the dryer (14) into a solid fuel.
The present invention provides a power management system that controls power-generating equipment including a photovoltaic device, and comprises: a control unit that controls the load power on the basis of a predicted generated power, assuming that the power generated by the power-generating equipment is the predicted generated power based on the power-generating capacity of the power-generating equipment; and an actual power generation amount information acquisition unit as a power generation information acquisition unit that acquires the actual power generated by the power-generating equipment. The control unit temporarily changes the control method when it is detected that the difference between the predicted generated power and the actual generated power is greater than a prescribed value.
H02J 3/38 - Dispositions pour l’alimentation en parallèle d’un seul réseau, par plusieurs générateurs, convertisseurs ou transformateurs
H02J 3/14 - Circuits pour réseaux principaux ou de distribution, à courant alternatif pour règler la tension dans des réseaux à courant alternatif par changement d'une caractéristique de la charge du réseau par interruption, ou mise en circuit, des charges du réseau, p.ex. charge équilibrée progressivement
H02J 7/35 - Fonctionnement en parallèle, dans des réseaux, de batteries avec d'autres sources à courant continu, p.ex. batterie tampon avec des cellules sensibles à la lumière