A disclosed solid-state battery manufacturing method includes: a placing step of placing a laminate on a placement surface of a first die so that a main surface of the laminate is closer to the first die than a main surface; and a dividing step of dividing the laminate by bringing a cutting edge of a second die and the first die closer to each other so that the cutting edge approaches the first die from the main surface side. In the dividing step, the laminate is divided by bringing the cutting edge and the first die closer to each other within a range where at least one part of the cutting edge does not pass the position of the main surface.
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 10/42 - Procédés ou dispositions pour assurer le fonctionnement ou l'entretien des éléments secondaires ou des demi-éléments secondaires
Provided is technology capable of generating a highly concentrated product gas. This generation device comprises: a plurality of reactors, including a first reactor and a second reactor, for generating a product gas by a catalytic reaction of a feedstock gas; a gas path through which the feedstock gas flows and passes through the plurality of reactors; a circulation path which passes through the plurality of reactors and in which a heat medium for adjusting the temperature in the plurality of reactors circulates; and a temperature adjustment unit which is provided to the circulation path and adjusts the temperature of the heat medium. The second reactor is disposed after the first reactor in the direction in which the feedstock gas flows in the gas path. The second reactor is disposed after the temperature adjustment unit and the first reactor is disposed after the second reactor in the direction in which the heat medium circulates in the circulation path.
B01J 8/04 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés avec des particules immobiles, p. ex. dans des lits fixes le fluide passant successivement à travers plusieurs lits
B01J 8/00 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés
B01J 19/00 - Procédés chimiques, physiques ou physico-chimiques en généralAppareils appropriés
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
A flap gate 100 comprises: a door body 10 that rotates around a predetermined rotation axis X between a fallen state fallen in water and a standing state standing from the water; a mooring device 1 that moors the door body 10 in the fallen state; an air chamber 70 that is disposed in the water and is airtightly partitioned; and a communication chamber 73 that is disposed adjacent to the air chamber 70 via a partition wall 71, and has a lower part opened in the water and an upper part in which an air reservoir 74 is formed. The mooring device 1 includes: a hook 2 which is switched between an engaged state of being engaged with the door body 10 in the fallen state and a release state of releasing the engagement with the door body 10; an actuator 3 for generating a driving force; and a transmission mechanism 4 for transmitting the driving force of the actuator 3 to the hook 2. The hook 2 is disposed in water. The actuator 3 is disposed in the air chamber 70. The transmission mechanism 4 is disposed from the air chamber 70, passing through the partition wall 71, to the hook 2 through the air reservoir 74.
A method for producing an all solid state battery 1 comprises: a laminating step for laminating a plurality of cells 2, a plurality of positive electrode current collectors 3A, and a plurality of negative electrode current collectors 3B; a positive electrode tab fixing step for bending positive electrode tabs 312A to form positive electrode first parts 3121A which extend along a side surface of a laminated body L2, positive electrode second parts 3122A which extend in a direction away from the laminated body L2, and positive electrode bent parts 3123A and fixing all the positive electrode first parts 3121A to the laminated body L2; and a positive electrode welding step for welding, with ultrasonic waves, all the positive electrode second parts 3122A to a positive electrode lead 4 in a state in which all the positive electrode first parts 3121A are fixed to the laminated body L2.
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
H01M 50/536 - Connexions d’électrodes dans un boîtier de batterie caractérisées par le procédé de fixation des conducteurs aux électrodes, p. ex. soudage
H01M 50/586 - Moyens pour empêcher un usage ou une décharge indésirables pour empêcher les contacts incorrects à l’intérieur ou à l’extérieur des batteries à l’intérieur des batteries p. ex. les contacts incorrects des électrodes
An ultrasonic phased array inspection device includes flexible plates, array probes, and a connection body. The flexible plates extend along an inner circumferential surface of a tube. The array probes are disposed on the flexible plates and send and receive an ultrasonic wave based on the phased array technique. The array probes have a set of a predetermined number of piezoelectric elements arranged in the inner circumferential direction of the tube. The connection body is connected to the flexible plates. The connection body has pulled parts that are pulled in the axial direction of the tube as force receiving parts that receive a force to make the connection body move in the axial direction of the tube.
In the present invention, a system for producing germ extract liquid (100) comprises a centrifugal separator (1), a filtration device (2), a releasing device (3) and a transportation device (4). In the centrifugal separator (1), a container (B), which contains a mixed germ liquid (GMF) obtained by mixing a germ (G) with an amino acid-containing amino acid solution (AL), is rotated while having a lid attached thereto, and the mixed germ liquid (GMF) is subjected to centrifugal separation to extract a germ extract (GEM) from the germ (G). In the filtration device (2), the mixed germ liquid (GMF) from the container (B) containing the centrifugally separated mixed germ liquid (GMF) is filtered to produce a germ extract liquid from the germ extract (GEM). The releasing device (3) releases a lid on the container (B). The transportation device (4) transports the container (B) to the centrifugal separator (1), the filtration device (2) and the releasing device (3).
Provided is a novel generator for generating a product gas. The generator includes: a first reactor, which generates a product gas by a catalytic reaction of a feed gas and sends out the feed gas and the product gas and which is equipped inside with a plate-type heat exchange surface; a first circulation route, in which a first heat carrier for regulating the temperature inside the first reactor is circulated through the first reactor; a second reactor, which generates a product gas by a catalytic reaction of the feed gas sent from the first reactor and sends out the product gas and which is equipped inside with a tube-type heat exchange surface; and a second circulation route, in which a second heat carrier for regulating the temperature inside the second reactor is circulated through the second reactor.
B01J 8/04 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés avec des particules immobiles, p. ex. dans des lits fixes le fluide passant successivement à travers plusieurs lits
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
A battery 1 includes a laminate cell 10, a housing 11, and a sealing body 12. The laminate cell 10 has a positive electrode lead 4 and a negative electrode lead 5. The housing 11 accommodates the laminate cell 10. The housing 11 has an opening 111 through which the positive electrode lead 4 and the negative electrode lead 5 pass. The sealing body 12 seals the opening 111 of the housing 11. The sealing body 12 is made of a porous body having air permeability.
H01M 50/178 - Dispositions pour introduire des connecteurs électriques dans ou à travers des boîtiers adaptées à la forme des cellules pour des cellules en forme de poches ou de sacs souples
SOLID-STATE BATTERY UNIT, SOLID-STATE BATTERY STACK, SOLID-STATE BATTERY PACK, METHOD FOR MANUFACTURING SOLID-STATE BATTERY UNIT, AND METHOD FOR MANUFACTURING SOLID-STATE BATTERY STACK
A solid-state battery unit (1) comprises: electrode sheets (10) provided with electrolyte layers (101), positive electrode layers (102), and negative electrode layers (103); a positive electrode current collector plate (11) in contact with the positive electrode layers (102) of the electrode sheets (10); a negative electrode current collector plate (12) in contact with the negative electrode layers (103) of the electrode sheets (10); and an insulating member (13) that insulates the electrode sheets (10). The plurality of electrode sheets (10) are disposed on the same flat surface so as not to overlap each other. The positive electrode current collector plate (11) is disposed on one-side surfaces of the plurality of electrode sheets (10). The negative electrode current collector plate (12) is disposed on the other-side surfaces of the plurality of electrode sheets (10). The insulating member (13) is disposed between the plurality of electrode sheets (10) adjacent to each other on the same flat surface.
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
H01M 10/0565 - Matériaux polymères, p. ex. du type gel ou du type solide
H01M 50/474 - Éléments d'espacement à l'intérieur des cellules autres que les séparateurs, les membranes ou les diaphragmesLeurs procédés de fabrication caractérisés par leur position dans les cellules
H01M 50/477 - Éléments d'espacement à l'intérieur des cellules autres que les séparateurs, les membranes ou les diaphragmesLeurs procédés de fabrication caractérisés par leur forme
H01M 50/533 - Connexions d’électrodes dans un boîtier de batterie caractérisées par la forme des conducteurs ou des languettes
According to the present invention, heat generated in one among a methanation facility and an incineration facility is effectively utilized in the other among the methanation facility and the incineration facility. This heat utilization system comprises: a methanation facility that generates methane from hydrogen and carbon dioxide; an incineration facility that has an incinerator; and a heat supply unit that supplies heat generated in one among the methanation facility and the incineration facility to the other among the methanation facility and the incineration facility.
A method for manufacturing an all-solid battery 1 includes: a cell formation step for dry-forming, on a first substrate F1, a cell 2 having a positive electrode layer 21 made from powder containing a positive electrode active material, a negative electrode layer 22 made from powder containing a negative electrode active material, and a solid electrolyte layer 23 that is arranged between the positive electrode layer 21 and the negative electrode layer 22 and is made from powder of a solid electrolyte; a pressing step for laminating a second substrate F2 on the cell 2 and pressing an obtained laminate L; a peeling step for peeling at least one among the first substrate F1 and the second substrate F2 from the cell 2; and a lamination step for alternately laminating the cell 2 and a current collector 3 such that one current collector 3 is arranged between two cells 2.
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
H01M 4/70 - Supports ou collecteurs caractérisés par la forme ou la configuration
The present invention determines an appropriate prediction model according to a target facility. This information processing device (1) comprises: a target identification unit (102) that identifies, as a target facility, a facility to be controlled among a plurality of prescribed facilities; and a model determination unit (103) that determines a prediction model (51) used for predicting the target facility on the basis of model allocation information (111) in which a prediction model pertaining to control of the facility is allocated to each of the plurality of facilities.
The present invention automatically determine control content corresponding to a target facility, and improve the ease of managing the control content determination logic. An information processing device (1) comprises: a target identifying unit (102) that identifies a target facility; and a logic determining unit (106) that, on the basis of logic allocation information (112) in which common logic (41) and individual logic (42) are allocated to each of a plurality of facilities (61), determines the common logic (41) and the individual logic (42) to be used in the target facility.
G05B 13/04 - Systèmes de commande adaptatifs, c.-à-d. systèmes se réglant eux-mêmes automatiquement pour obtenir un rendement optimal suivant un critère prédéterminé électriques impliquant l'usage de modèles ou de simulateurs
This hydrogen generation device (1) comprises: a stacked structure (4) in which sub-stacks (2), in each of which a plurality of electrolytic cells (21) are connected in series, and pressure plates (3) for pressurizing the sub-stacks (2) are alternately stacked; and a fastening tool (5) which fastens each two pressure plates (3) that are adjacent to each other with a sub-stack (2) interposed therebetween.
C25B 9/75 - Assemblages comprenant plusieurs cellules du type filtre-presse avec une électrode bipolaire
C25B 1/04 - Hydrogène ou oxygène par électrolyse de l'eau
C25B 9/00 - Cellules ou assemblages de cellulesÉléments de structure des cellulesAssemblages d'éléments de structure, p. ex. assemblages d'électrode-diaphragmeCaractéristiques des cellules relatives aux procédés
C25B 9/77 - Assemblages comprenant plusieurs cellules du type filtre-presse avec diaphragmes
15.
INFORMATION PROCESSING DEVICE, DETERMINATION AREA SETTING METHOD, AND STORAGE MEDIUM
This invention automatically sets an appropriate determination area in an image of an inspection target. An information processing device includes: a detecting section that detects, in an image of an inspection target, a feature whose positional relation with a determination area to be inspected is known; and a setting section that sets the determination area with reference to the feature detected by the detecting section.
G06V 10/25 - Détermination d’une région d’intérêt [ROI] ou d’un volume d’intérêt [VOI]
G06V 10/44 - Extraction de caractéristiques locales par analyse des parties du motif, p. ex. par détection d’arêtes, de contours, de boucles, d’angles, de barres ou d’intersectionsAnalyse de connectivité, p. ex. de composantes connectées
16.
SOLID STATE BATTERY, SOLID STATE BATTERY MANUFACTURING METHOD, AND SOLID STATE BATTERY MANUFACTURING DEVICE
The disclosed production method includes step (i) and step (ii) in this order. The step (i) is a step of preparing a laminate including a power generating element including a positive electrode layer, a negative electrode layer, and a solid electrolyte layer disposed between the positive electrode layer and the negative electrode layer, and at least one metal foil disposed on at least one principal surface of the power generating element. The step (ii) is a step of breaking the power generating element at a linear division position, and cutting the at least one metal foil at the division position.
In order to improve the accuracy of detecting a detection target region from an input image capturing an object, an information processing device (1) is provided with: a detection unit (102) that detects each of a target region and an aggregate region from an input image capturing an object by using a trained model that is trained using training images in which each target region included in an object and each aggregate region composed of a plurality of target regions are annotated with different classifications; and a specification unit (103) that specifies an undetected region, which is a target region that has failed to be detected, in the detected aggregate region.
G16H 30/00 - TIC spécialement adaptées au maniement ou au traitement d’images médicales
G16H 50/20 - TIC spécialement adaptées au diagnostic médical, à la simulation médicale ou à l’extraction de données médicalesTIC spécialement adaptées à la détection, au suivi ou à la modélisation d’épidémies ou de pandémies pour le diagnostic assisté par ordinateur, p. ex. basé sur des systèmes experts médicaux
18.
FILLET WELDING DEVICE, FILLET WELDING METHOD, AND FILLET WELDING STRUCTURE
A fillet welding device (100) fillet-welds a screen (1) and a plate material (2). The screen (1) has a plurality of long members (10) arranged in parallel at a predetermined interval (g). The plate material (2) is placed on the screen (1). The fillet welding device (100) comprises: a welding torch (4); a corner part detector (5); a welding torch moving mechanism (6); and a welding power source (7). The welding torch (4) performs heat input as a welding procedure to portions that are to be fillet-welded. The corner part detector (5) detects a corner part (25) which is on the side far from the screen (1), among the portions that are to be fillet-welded in the plate material (2). The welding torch moving mechanism (6) directs the welding torch (4) toward the corner part (25) that is detected. The welding power source (7) applies a welding pulse current (C) to the welding torch (4) that is directed toward the corner part (25).
A methane oxidation catalyst according to the present invention is a catalyst for oxidizing methane and comprises: a catalyst carrier that includes a ceria-zirconia composite oxide; and an active metal that is carried on the catalyst carrier and includes Pd and Pt. The ceria content fraction of the catalyst carrier is at least 5 mass% but less than 15 mass%.
X1-X244 (In formula (1), A represents at least one element that is selected from the group consisting of Fe, Mn, Ce, Zr, La, alkali metals and alkaline earth metals. In addition, X is more than 0 and less than 1.)
B01D 53/94 - Épuration chimique ou biologique des gaz résiduaires des gaz d'échappement des moteurs à combustion par des procédés catalytiques
B01J 23/78 - Catalyseurs contenant des métaux, oxydes ou hydroxydes métalliques non prévus dans le groupe du cuivre ou des métaux du groupe du fer en combinaison avec des métaux, oxydes ou hydroxydes prévus dans les groupes avec des métaux alcalins ou alcalino-terreux ou du béryllium
B01J 23/80 - Catalyseurs contenant des métaux, oxydes ou hydroxydes métalliques non prévus dans le groupe du cuivre ou des métaux du groupe du fer en combinaison avec des métaux, oxydes ou hydroxydes prévus dans les groupes avec du zinc, du cadmium ou du mercure
B01J 23/83 - Catalyseurs contenant des métaux, oxydes ou hydroxydes métalliques non prévus dans le groupe du cuivre ou des métaux du groupe du fer en combinaison avec des métaux, oxydes ou hydroxydes prévus dans les groupes avec des terres rares ou des actinides
An exhaust treatment device (3) comprises: a sulfur adsorption unit (41) that is provided in an exhaust flow path (2) through which exhaust gas discharged from an engine (10) flows, and that adsorbs a substance containing sulfur in the exhaust gas; a heater (51) capable of heating the exhaust gas which flows into the sulfur adsorption unit (41); a heater bypass flow path (71) that is provided in the exhaust flow path (2), and bypasses the heater (51) and the sulfur adsorption unit (41); and a control unit (30) that, during regeneration of the sulfur adsorption unit (41), causes a portion of the exhaust gas to flow into the sulfur adsorption unit (41) by heating the exhaust gas by the heater (51), and causes the remaining exhaust gas to flow into the heater bypass flow path (71). During the regeneration of the sulfur adsorption unit (41), at a mixing position (P12) on the downstream side of the sulfur adsorption unit (41) in the flow path through which the portion of the exhaust gas flows, the portion of the exhaust gas which has passed through the sulfur adsorption unit (41) and the remaining exhaust gas which has passed through the heater bypass flow path (71) are mixed. Consequently, an inexpensive material can be used on the downstream side of the mixing position (P12).
F01N 3/20 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les méthodes d'opérationCommande spécialement adaptés à la conversion catalytique
F01N 3/08 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs
F01N 3/24 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les aspects de structure de l'appareillage de conversion
An exhaust treatment apparatus (3) is provided with: a sulfur adsorption unit (41) that is provided in an exhaust flow path (2); a catalyst unit (42) provided on the downstream side of the sulfur adsorption unit (41) in the exhaust flow path (2); a gas temperature switching unit (5) that is capable of switching between a normal gas inflow state in which exhaust at a normal temperature flows through the sulfur adsorption unit (41) and a high-temperature gas inflow state in which exhaust at a temperature higher than the normal temperature flows through the sulfur adsorption unit (41); a catalyst bypass flow path (76) that is provided in the exhaust flow path (2) and bypasses a target catalyst (422) included in the catalyst unit (42); a flow path switching unit (6) that is capable of switching between a bypass state in which exhaust flows through the catalyst bypass flow path (76) and a non-bypass state in which exhaust flows through the target catalyst (422); and a control unit (30) that switches the flow path switching unit (6) from the non-bypass state to the bypass state when regeneration of the sulfur adsorption unit (41) is performed by switching the gas temperature switching unit (5) from the normal gas inflow state to the high-temperature gas inflow state.
F01N 3/24 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les aspects de structure de l'appareillage de conversion
F01N 3/08 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs
F01N 3/20 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les méthodes d'opérationCommande spécialement adaptés à la conversion catalytique
Disclosed is an all-solid-state battery (10) comprising: a laminate (100) including at least one power-generating element (110); an insulation film (120) disposed so as to surround the laminate (100); and an exterior body (130) internally accommodating the laminate (100) and the insulation film (120). The exterior body (130) is formed using a metal laminate film. The interior of the exterior body (130) is depressurized.
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
H01M 50/178 - Dispositions pour introduire des connecteurs électriques dans ou à travers des boîtiers adaptées à la forme des cellules pour des cellules en forme de poches ou de sacs souples
H01M 50/531 - Connexions d’électrodes dans un boîtier de batterie
H01M 50/586 - Moyens pour empêcher un usage ou une décharge indésirables pour empêcher les contacts incorrects à l’intérieur ou à l’extérieur des batteries à l’intérieur des batteries p. ex. les contacts incorrects des électrodes
There is provided an electrostatic film formation device including a powder feeder feeding powder, a substrate on which a powder film is to be formed from the powder, and a DC power supply applying voltage to the powder feeder and the substrate. The DC power supply applies the voltage to draw the powder from the powder feeder to the substrate with electrostatic force. The electrostatic film formation device further includes a masking member disposed between the powder feeder and the substrate. The masking member is formed with a passing port allowing the powder to pass from the powder feeder to the substrate. The masking member is disposed in the state where the masking member is not in contact with the powder film to be formed.
B05B 5/16 - Dispositions pour l'alimentation en liquides ou en autres matériaux fluides
B05B 5/00 - Pulvérisation électrostatiqueDispositifs de pulvérisation comportant des moyens pour charger électriquement le pulvérisatPulvérisation de liquides ou d'autres matériaux fluides par voies électriques
B05B 5/025 - Appareillages pour délivrer le matériau, p. ex. pistolets de pulvérisation électrostatique
B05B 12/20 - Éléments de masquage, c.-à-d. éléments définissant des aires non revêtues sur un objet à revêtir
B05B 15/50 - Aménagements pour le nettoyageAménagements pour empêcher les dépôts, le séchage ou un blocageAménagements pour détecter une évacuation incorrecte en raison de la présence d’un corps étranger
NATIONAL CEREBRAL AND CARDIOVASCULAR CENTER (Japon)
Inventeur(s)
Yoshimatsu, Jun
Kakigano, Aiko
Matsuzaki, Hiroki
Tohmaru, Masahiro
Abrégé
For the purpose of accurately determining the type of arrhythmia from an image captured of the heart, this device (1) for determining the type of arrhythmia is provided with: an acquisition unit (101) for acquiring peak information about one or more peak frequencies respectively having the top one or more peak values, among peak frequencies in frequency spectra of signal waveforms showing time-series change in the area of each of left atrium, left ventricle, right atrium and right ventricle included in the captured image of the heart; and a determination unit (102) which determines the type of arrhythmia on the basis of the peak information.
NATIONAL CEREBRAL AND CARDIOVASCULAR CENTER (Japon)
Inventeur(s)
Yoshimatsu, Jun
Kakigano, Aiko
Matsuzaki, Hiroki
Tohmaru, Masahiro
Abrégé
In order to accurately determine the presence or absence of a premature contraction from a cardiac image, a premature contraction determination device (1) comprises: an acquisition unit (101) that acquires a signal waveform showing time-series changes in the area of each ventricle region and each atrium region in the cardiac image; and a determination unit (104) that compares a time interval between a time point at which the area indicated by the signal waveform reaches a reference value and a next time point at which the area indicated by the signal waveform reaches the reference value against a predetermined threshold value, and thus determines whether or not the time interval represents a premature contraction.
A nickel-based casting alloy according to the present invention is 0.15–0.35 mass% C, 1.5–3.0 mass% Si, no more than 1.5 mass% Mn, 50.0–55.0 mass% Ni, 20.0–23.0 mass% Cr, 2.0–6.0 mass% Mo, 4.0–5.0 mass% W, and 3.7–5.4 mass% Nb, the remainder being Fe and unavoidable impurities.
C22C 19/05 - Alliages à base de nickel ou de cobalt, seuls ou ensemble à base de nickel avec du chrome
C22F 1/00 - Modification de la structure physique des métaux ou alliages non ferreux par traitement thermique ou par travail à chaud ou à froid
C22F 1/10 - Modification de la structure physique des métaux ou alliages non ferreux par traitement thermique ou par travail à chaud ou à froid du nickel ou du cobalt ou de leurs alliages
A waste incineration facility (1) comprises: an exhaust gas flow path (4) through which exhaust gas discharged from an incinerator (3) flows; a wet type smoke-cleaning tower (43) that is provided in the exhaust gas flow path (4); a recirculated exhaust gas line (6) that is connected to an extraction position (P1) in the exhaust gas flow path (4) downstream of the wet type smoke-cleaning tower (43), and through which a portion of the exhaust gas flowing through the exhaust gas flow path (4) is extracted as recirculated exhaust gas and fed into the incinerator (3); an oxygen-mixing unit (66) that mixes a high-concentration oxygen gas into the recirculated exhaust gas flowing through the recirculated exhaust gas line (6); and a methanation device (51) that produces a methane-containing gas by reacting hydrogen with the exhaust gas flowing through the exhaust gas flow path (4) after passing the extraction position (P1). The recirculated exhaust gas fed into the incinerator (3) is the main gas in a combustion gas for use in incineration of waste in the incinerator (3).
F23G 5/00 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets ou de combustibles pauvres
F23C 9/08 - Appareils à combustion caractérisés par des dispositions pour renvoyer les produits de combustion ou les gaz de fumée dans la chambre de combustion destinés à réduire la température dans la chambre de combustion, p. ex. à protéger les parois de la chambre de combustion
F23C 99/00 - Matière non prévue dans les autres groupes de la présente sous-classe
F23G 5/44 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets ou de combustibles pauvres Parties constitutivesAccessoires
F23J 15/00 - Aménagement des dispositifs de traitement de fumées ou de vapeurs
F23L 7/00 - Alimentation du foyer en liquides ou gaz non combustibles autres que l'air, p. ex. oxygène, vapeur d'eau
This waste incineration facility (1) comprises: an exhaust gas recirculation unit (5) which extracts, as a recirculation exhaust gas, a portion of an exhaust gas flowing through an exhaust gas channel (4) by means of a recirculation exhaust gas line (52) and supplies the recirculation exhaust gas into an incineration furnace (3); an oxygen mixing unit (6) which mixes the recirculation exhaust gas flowing through the recirculation exhaust gas line (52) with a high oxygen concentration gas that has a higher oxygen concentration than the air; and concentration measurement units (21, 22) which measure the concentration of carbon dioxide in the recirculation exhaust gas flowing through the recirculation exhaust gas line (52). The recirculation exhaust gas supplied into the incineration furnace (3) is a main gas of a combustion gas used for the incineration of waste inside the incineration furnace (3), and a concentration-related value pertaining to the concentration of carbon dioxide of the recirculation exhaust gas supplied into the incineration furnace (3) is derived from the measured values by concentration measurement units (21, 22). A control unit controls a mixture amount of the high oxygen concentration gas mixed by the oxygen mixing unit (6) so that the concentration-related values are in a setting range in which the concentration of NOx is reduced in the incineration furnace (3).
B01D 53/14 - Séparation de gaz ou de vapeursRécupération de vapeurs de solvants volatils dans les gazÉpuration chimique ou biologique des gaz résiduaires, p. ex. gaz d'échappement des moteurs à combustion, fumées, vapeurs, gaz de combustion ou aérosols par absorption
B01D 53/78 - Procédés en phase liquide avec un contact gaz-liquide
F23C 9/06 - Appareils à combustion caractérisés par des dispositions pour renvoyer les produits de combustion ou les gaz de fumée dans la chambre de combustion destinés à obtenir une combustion complète
F23G 5/00 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets ou de combustibles pauvres
F23J 15/00 - Aménagement des dispositifs de traitement de fumées ou de vapeurs
F23L 7/00 - Alimentation du foyer en liquides ou gaz non combustibles autres que l'air, p. ex. oxygène, vapeur d'eau
30.
INFORMATION PROCESSING DEVICE, WASTE TREATMENT SYSTEM, SEARCH METHOD, AND SEARCH PROGRAM
NATIONAL UNIVERSITY CORPORATION NARA INSTITUTE OF SCIENCE AND TECHNOLOGY (Japon)
Inventeur(s)
Matsubara, Takamitsu
Sasaki, Hikaru
Kwon, Yuhwan
Hirabayashi, Terushi
Kawabata, Kaoru
Ise, Akifumi
Abrégé
The present invention derives an appropriate control parameter for an apparatus that performs a waste treatment task. An information processing device (4) comprises an evaluation results acquisition unit (406) that acquires evaluation results for evaluation of a plurality of candidates for an optimal value for a control parameter for a waste treatment task by an evaluator that has observed the state of the task as performed applying each of the candidates, a prediction distribution calculation unit (402) that uses the evaluation results to update a prediction distribution for an evaluation function, and a search unit (403) that searches for a candidate for the optimal value for the control parameter on the basis of the updated prediction distribution.
The present invention reduces the residual amount of un-reacted gas in a product gas generated in a reactor. This generation device: calculates the flow rate of carbon dioxide gas contained in a first raw material gas on the basis of the density of the first raw material gas, a first measurement value of the flow rate of the first raw material gas, and the carbon dioxide concentration in the first raw material gas, said first raw material gas containing at least carbon dioxide gas and being supplied to a reactor that generates a product gas via a catalytic reaction between carbon dioxide and hydrogen; calculates the flow rate of hydrogen gas contained in a second raw material gas on the basis of the density of the second raw material gas, a second measurement value of the flow rate of the second raw material gas, and the hydrogen concentration in the second raw material gas, said second raw material gas containing at least hydrogen gas and being supplied to the reactor; and controls the flow rate of the first raw material gas and/or the flow rate of the second raw material gas on the basis of the flow rate of the carbon dioxide gas contained in the first raw material gas and the flow rate of the hydrogen gas contained in the second raw material gas.
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
An exhaust gas treatment apparatus includes a treatment cabinet and a catalyst part. To the treatment cabinet, introduced is exhaust gas of an engine which uses gas containing methane as a fuel. The catalyst part is accommodated in the treatment cabinet and oxidizes unburned methane contained in the exhaust gas. When a temperature of the catalyst part is lower than a predetermined normal operating temperature, the catalyst part oxidizes carbon monoxide contained in the exhaust gas and uses oxidation reaction heat of carbon monoxide, to thereby raise the temperature of the catalyst part up to the normal operating temperature or higher. Even when the temperature of the exhaust gas supplied to the catalyst part is lower than the normal operating temperature, it is thereby possible to quickly raise the temperature of the catalyst part up to the normal operating temperature por higher.
F01N 3/00 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement
F01N 3/20 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les méthodes d'opérationCommande spécialement adaptés à la conversion catalytique
F01N 3/24 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les aspects de structure de l'appareillage de conversion
F02D 19/02 - Commande des moteurs caractérisés par l'emploi de combustible non liquide, de combustibles multiples ou de substances non combustibles ajoutées au mélange carburant particulière aux moteurs fonctionnant avec des combustibles gazeux
33.
INFORMATION PROCESSING DEVICE, CONTROL SYSTEM, SEARCH METHOD, AND SEARCH PROGRAM
The objective of the present invention is to set a parameter relating to inference and control appropriately regardless of the technical skill of an individual. An information processing device (3) comprises: a predicted distribution calculating unit (303) for calculating a predicted distribution of a function representing a relationship between a parameter of a control system (7) that controls a controlled object (5) in accordance with the result of an inference obtained by an inference model, and an operating state of the controlled object (5) in a period in which the parameter is applied; and a search unit (304) for searching for a candidate of an optimal value of the parameter on the basis of the predicted distribution.
This invention appropriately performs processing relating to updating a machine learning model. An information processing device (2) comprises: an outlier determination unit (204) that uses a threshold value for determining whether training data included in a training data set is an outlier, and determines whether input data input to a machine learning model is an outlier; and an index value calculation unit (205) that calculates, on the basis of the determination results, an index value indicating the compatibility of the machine learning model with respect to input data.
The present invention provides a technology capable of coping with complicated waste crane manipulation even in remote manipulation. A transmission device (1) comprises: a manipulation input unit (11) that inputs the manipulation amount of a waste crane (3); and a transmission unit that converts a manipulation signal corresponding to the manipulation amount into an extended tone signal obtained by extending a tone signal to a high range and/or a low range, and transmits the extended tone signal to a waste crane control device (2). The waste crane control device (2) comprises a reception unit (22) that receives the extended tone signal from the transmission device (1), and converts the extended tone signal into the manipulation signal, and a waste crane control unit (23) that controls the waste crane (3) in response to the manipulation signal.
H04Q 9/00 - Dispositions dans les systèmes de commande à distance ou de télémétrie pour appeler sélectivement une sous-station à partir d'une station principale, sous-station dans laquelle un appareil recherché est choisi pour appliquer un signal de commande ou pour obtenir des valeurs mesurées
B66C 13/00 - Autres caractéristiques de structure ou détails
B66C 13/40 - Utilisation de dispositifs pour transmettre des impulsions de commandeUtilisation de dispositifs de commande à distance
G05D 1/00 - Commande de la position, du cap, de l'altitude ou de l'attitude des véhicules terrestres, aquatiques, aériens ou spatiaux, p. ex. utilisant des pilotes automatiques
36.
ION GENERATION DEVICE, ION GENERATION METHOD, AND TARGET FOR ION GENERATION
NATIONAL INSTITUTES FOR QUANTUM SCIENCE AND TECHNOLOGY (Japon)
HITACHI ZOSEN CORPORATION (Japon)
Inventeur(s)
Kojima, Sadaoki
Sakaki, Hironao
Miyatake, Tatsuhiko
Kondo, Kiminori
Kuroki, Hiroyoshi
Shimizu, Yusuke
Harada, Hisanori
Inoue, Norihiro
Abrégé
Provided is an ion generation device that can sequentially supply targets to an irradiation area while removing an impurity layer that can form on the surface of the targets. An ion generation device (10) comprises: an induction heating unit (13) that heats a film-shaped target (TA) that includes a conductor layer by induction; and a laser irradiation unit (laser light source 15, focusing mirror 16b) that irradiates laser light at the target that has been heated by induction and thereby generates ions from the target.
This invention carries out highly accurate determination even on an image which is likely to cause erroneous determination. An information processing device (1) includes: a classifying section (105) that obtains an output value given in response to inputting an inspection image into a classification model generated by carrying out learning so that distances, in a feature space, between feature quantities extracted from an image group not having a noise become small; and a determining section (102) that applies, in accordance with the output value, a method for the image group not having a noise or a method for an image group having a noise to determine the presence or absence of a defect.
G06V 10/42 - Extraction de caractéristiques globales par l’analyse du motif entier, p. ex. utilisant des transformations dans le domaine de fréquence ou d’autocorrélation
An all-solid-state battery (100) disclosed herein includes at least one unit cell (120) including a positive electrode layer (121), a negative electrode layer (122), and a solid electrolyte layer (123). The all-solid-state battery (100) includes: a laminate (110) including at least one unit cell (120); a restraining member (130) which is disposed so as to surround the laminate (110) and restrains the laminate (110); and an exterior body (140) which seals the laminate (110) and the restraining member (130). The restraining member (130) does not seal the inside of the restraining member (130).
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
H01M 50/124 - Boîtiers primairesFourreaux ou enveloppes caractérisés par le matériau ayant une structure en couches
H01M 50/474 - Éléments d'espacement à l'intérieur des cellules autres que les séparateurs, les membranes ou les diaphragmesLeurs procédés de fabrication caractérisés par leur position dans les cellules
H01M 50/477 - Éléments d'espacement à l'intérieur des cellules autres que les séparateurs, les membranes ou les diaphragmesLeurs procédés de fabrication caractérisés par leur forme
This disclosed manufacturing method is for manufacturing an all-solid-state battery including at least one unit cell that includes a positive electrode layer, a negative electrode layer, and a solid electrolyte layer disposed between the positive electrode layer and the negative electrode layer. This manufacturing method includes: a step (i) for disposing, inside an exterior body having an opening, a fluid first resin-containing material for which curing is not complete; and a step (ii) for inserting a laminate (110), including the at least one unit cell, into the exterior body (120) and thereafter completing the curing of the first resin-containing material, thus disposing the cured first resin-containing material (201b) between the exterior body (120) and the laminate (110).
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
H01M 50/474 - Éléments d'espacement à l'intérieur des cellules autres que les séparateurs, les membranes ou les diaphragmesLeurs procédés de fabrication caractérisés par leur position dans les cellules
An exhaust gas treatment system 1 comprises: an exhaust passage 10; a first catalyst device 21; a second catalyst device 31; a third catalyst device 41; a first concentration sensor 22; a second concentration sensor 32; a first bypass passage 23; a second bypass passage 33; a first switching device 24; a second switching device 34; and a control unit 14 which controls the first switching device 24 and the second switching device 34 on the basis of the concentration of each of compounds detected by the first concentration sensor 22 and the second concentration sensor 32.
B01D 53/94 - Épuration chimique ou biologique des gaz résiduaires des gaz d'échappement des moteurs à combustion par des procédés catalytiques
F01N 3/20 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les méthodes d'opérationCommande spécialement adaptés à la conversion catalytique
Provided is technology that shortens the time needed to heat a catalyst in a reaction tower. The generation device is equipped with a reaction tower that generates a product gas by an exothermic reaction of a raw material gas in a catalyst and a raw material gas supply unit that heats the raw material gas and supplies the raw material gas to the reaction tower. The reaction tower has: a reactor, packed with a catalyst, into which the raw material gas flows; a jacket portion, through which a heating medium flows, that covers part of the outer circumference of the reactor; and a heat insulating member that covers the other part of the outer circumference of the reactor.
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 8/02 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés avec des particules immobiles, p. ex. dans des lits fixes
A water electrolysis apparatus (100) includes: an electrolytic cell (20) for electrolyzing water; a circulation pump (27) that is installed in a water circulation line (23) for supplying water from an oxygen gas-liquid separator (22) to the electrolytic cell (20); an inverter (50) that supplies power to the circulation pump (27); and a control unit (60) that controls the inverter (50) to change the circulating water flow rate of the water circulation line (23).
C25B 15/02 - Commande ou régulation des opérations
C25B 1/04 - Hydrogène ou oxygène par électrolyse de l'eau
C25B 9/00 - Cellules ou assemblages de cellulesÉléments de structure des cellulesAssemblages d'éléments de structure, p. ex. assemblages d'électrode-diaphragmeCaractéristiques des cellules relatives aux procédés
43.
CONTROL DEVICE, CONTROL METHOD, INCINERATOR FACILITY, AND PREDICTION MODEL CREATION DEVICE
The present invention applies control to lessen the impact of process values. A control device (3) comprises: a prediction unit (31) that predicts a predicted value of a control quantity at a control time on the basis of a plurality of process values at an incinerator facility (100) that impact the control quantity; and a control unit (32) that calculates, on the basis of the predicted value, an input value indicating the magnitude of an input to be given to an object of control for controlling the control quantity, and controls the control quantity on the basis of the input value.
G05B 11/36 - Commandes automatiques électriques avec les dispositions nécessaires pour obtenir des caractéristiques particulières, p. ex. proportionnelles, intégrales, différentielles
G05B 13/04 - Systèmes de commande adaptatifs, c.-à-d. systèmes se réglant eux-mêmes automatiquement pour obtenir un rendement optimal suivant un critère prédéterminé électriques impliquant l'usage de modèles ou de simulateurs
44.
INFORMATION PROCESSING DEVICE, CONTROL SYSTEM, SEARCH METHOD, AND SEARCH PROGRAM
The present invention performs stable feedback control without being affected by human subjectivity. This information processing device comprises: a predicted distribution calculation unit (102) that calculates a predicted distribution of a function indicating the relationship between a control parameter for feedback control and the result of feedback control using the control parameter; and a search unit (103) that searches for a candidate for the optimal value of the control parameter on the basis of the predicted distribution.
G05B 13/02 - Systèmes de commande adaptatifs, c.-à-d. systèmes se réglant eux-mêmes automatiquement pour obtenir un rendement optimal suivant un critère prédéterminé électriques
Provided is a sorting device that avoids being unable to sort a conforming granular material from among a plurality of granular materials. A sorting device (100) comprises: an identification device (3) that identifies a non-conforming granular material (NG) that is a granular material (G) that does not conform to a standard from an image (P) obtained by capturing a plurality of granular materials (G); and a housing (4). The housing (4) has a plurality of discharge areas (R), a suction path (41), and an introduction path (42). The discharge areas (R) area disposed to divide the plurality of granular materials (G) into a plurality of groups. The suction path (41) communicates with the discharge areas (R), and air in the discharge area (R) assigned a group including the non-conforming granular material (NG) and the granular materials (G) in the discharge area assigned the group including the non-conforming granular material (NG) are sucked into the suction path (41). The introduction path (42) communicates with each discharge area (R), and has an introduction path (42) for introducing air outside the discharge areas (R) into each discharge area (R).
B07C 5/36 - Appareils trieurs caractérisés par les moyens qu'ils utilisent en vue de la distribution
B07C 5/342 - Tri en fonction d'autres propriétés particulières selon les propriétés optiques, p. ex. la couleur
G01N 21/85 - Analyse des fluides ou solides granulés en mouvement
46.
INFORMATION PROCESSING DEVICE, INFERENCE MODEL GENERATION METHOD, TRAINING DATA GENERATION METHOD, INFERENCE MODEL GENERATION PROGRAM, AND TRAINING DATA GENERATION PROGRAM
The present invention enables generation of a highly versatile inference model. An information processing device (2) comprises: a data combination unit (204) that combines a plurality of pieces of time series data, which are based on pieces of data collected from a plurality of facilities respectively, to generate pseudo time series data; a training data generation unit (205) that applies standardization processing to the pseudo time series data to obtain training data; and a training unit (206) that generates an inference model by machine learning using the training data.
An all-solid state secondary cell comprises a positive electrode collector, a negative electrode collector, and a powder laminate disposed between the positive electrode collector and the negative electrode collector. The powder laminate has a positive electrode powder layer, a negative powder layer, a solid electrolyte layer disposed between the positive electrode powder layer and the negative electrode powder layer, and an absorption layer covering an outer periphery of the positive electrode powder layer or the negative electrode powder layer. The absorption layer includes at least one of a hydrogen sulfide adsorption layer and a moisture adsorption layer. The powder laminate comprises a peripheral edge part and a center part surrounded by the peripheral edge part. A thickness of the peripheral edge part of the powder laminate is greater than a thickness of the center part of the powder laminate.
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
H01M 50/574 - Dispositifs ou dispositions pour l’interruption du courant
A waste incineration facility (1) comprises: a recirculated exhaust gas line (6) for extracting a portion of exhaust gas flowing through an exhaust gas flow path (4) as recirculated exhaust gas, and supplying the same into an incinerator (3); an oxygen mixing unit (5) for mixing high-concentration oxygen gas having a higher oxygen concentration than air into the recirculated exhaust gas flowing through the recirculated exhaust gas line (6); mixing ratio modifying units (81 to 83) for modifying a mixing ratio of the recirculated exhaust gas and the high-concentration oxygen gas to be supplied into an incinerator (3) from predetermined gas supply positions in the incinerator (3); quantity of interest measuring units (36 to 38) for measuring at least one of an amount of vapor generated by heat of the exhaust gas, a temperature inside the incinerator (3), and an oxygen concentration at an outlet of the incinerator (3), as quantities of interest; and a control unit (10) for controlling the mixing ratio modifying units (81 to 83) such that measured values of the quantities of interest approach predetermined target values. A main gas of a combustion gas supplied into the incinerator (3) via a gas pipe is the recirculated exhaust gas to which the high-concentration oxygen gas has been mixed.
F23G 5/00 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets ou de combustibles pauvres
F23G 5/44 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets ou de combustibles pauvres Parties constitutivesAccessoires
F23L 7/00 - Alimentation du foyer en liquides ou gaz non combustibles autres que l'air, p. ex. oxygène, vapeur d'eau
F23C 9/08 - Appareils à combustion caractérisés par des dispositions pour renvoyer les produits de combustion ou les gaz de fumée dans la chambre de combustion destinés à réduire la température dans la chambre de combustion, p. ex. à protéger les parois de la chambre de combustion
Provided is a technique with which it is possible to shorten the time necessary for generating a product gas. The generation device comprises a reactor for generating a product gas by an exothermic reaction of a raw material gas in a catalyst, a raw material gas supply unit for supplying the raw material gas to the reactor, and a temperature adjustment unit for maintaining the operating temperature within the reactor within a predetermined range by adjusting the temperature of the heating medium passing through the reactor. When a procedure for starting operation of the reactor which is in a cold shutdown state in which supply of raw material gas to the reactor has been stopped by the raw material gas supply unit is carried out, the temperature adjustment unit starts raising the temperature of the reactor by heating the heating medium, and the raw material gas supply unit starts supplying raw material gas at a predetermined supply start temperature at which the temperature within the reactor during heating is lower than the operating temperature.
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 8/04 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés avec des particules immobiles, p. ex. dans des lits fixes le fluide passant successivement à travers plusieurs lits
Provided is a technology that is capable of using heat recovered by a heat medium. This power-generating system is provided with: a reaction tower for producing a product gas by an exothermic reaction of starting gases at a catalyst; a steam-producing unit for producing steam from a liquid in which the heat source is a heat medium that passes through the reaction tower and maintains the inside of the reaction tower at an operating temperature within a specific range; and a power-generating unit that is driven by the steam produced by the steam-producing unit.
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 8/00 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solidesAppareillage pour de tels procédés
B01J 19/00 - Procédés chimiques, physiques ou physico-chimiques en généralAppareils appropriés
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 1/32 - Appareils de chauffage d'eau d'alimentation, p. ex. préchauffeurs disposés pour un chauffage par la vapeur, p. ex. prélevée dans la turbine
F22D 1/36 - Systèmes de préchauffage de l'eau et de l'air
51.
SOLID STATE BATTERY MANUFACTURING METHOD AND SOLID STATE BATTERY MANUFACTURING DEVICE
The disclosed solid state battery manufacturing method includes: a placement step in which a layered body (100) is placed on a placement surface (210p) of a first die (210) such that a main surface (100SA1) of the layered body (100) is closer to the first die (210) than a main surface (100SA2) is; and a splitting step in which the layered body (100) is split by bringing a blade section (220a) of a second die (220) and the first die (210) closer together, such that the blade section (220a) approaches the first die (210) from the main surface (100SA2) side. During the splitting step, the layered body (100) is split by bringing the blade section (220a) and the first die (210) closer together in a range in which at least a portion of the blade section (220a) does not pass the location of the main surface (SA1).
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
The present invention includes an outer package and contents accommodated in the outer package. The contents include an electrode body. The outer package substantially uniformly applies pressing force to each of the front surface and the rear surface of the contents due to the elastic force of the outer package.
NATIONAL UNIVERSITY CORPORATION NARA INSTITUTE OF SCIENCE AND TECHNOLOGY (Japon)
Inventeur(s)
Kawabata, Kaoru
Hirabayashi, Terushi
Ise, Akifumi
Matsubara, Takamitsu
Sasaki, Hikaru
Taniguchi, Taichi
Abrégé
The present invention provides information which is useful for controlling a crane. A shape estimation device (1) comprises: a detection results acquisition unit (101) that obtains the results of detecting a target object in a crane bucket by a plurality of distance sensors provided on a surface of the bucket, the surface facing the target object, the results detected when a portion of the target object deposited by the bucket is grasped and lifted; and a shape estimation unit (102) that estimates the shape of the target object being grasped by the bucket on the basis of the detection results.
B66C 13/32 - Systèmes ou dispositifs de commande pour entraînement électrique pour actionner les treuils des auges de bennes preneuses au moyen d'un ou plusieurs moteurs électriques utilisés à la fois pour le levage et l'affalement des charges et pour l'ouverture et la fermeture des mâchoires de l'auge
In the present invention, a melted resin is extruded in a sheet form from a die 19 of an extrusion device 11. A resin sheet 12 that has been extruded is passed through a roll-type sheet forming device 23 in a forming device 14, and a sheet-shaped product is thereby formed. In such a case, a lead film 34 is set on the roll-type sheet forming device 23 in advance, the lead film 34 being conveyed forward by the rotation of forming rolls 28 included in the roll-type sheet forming device 23, and the resin sheet 12 which has been guided to the sheet forming device 23 is attached to the lead film 34.
B29C 48/08 - Moulage par extrusion, c.-à-d. en exprimant la matière à mouler dans une matrice ou une filière qui lui donne la forme désiréeAppareils à cet effet caractérisées par la forme à l’extrusion de la matière extrudée plate, p. ex. panneaux flexible, p. ex. pellicules
B29C 48/25 - Éléments constitutifs, détails ou accessoiresOpérations auxiliaires
B29C 48/305 - Filières ou matrices d’extrusion avec une large ouverture, p. ex. pour former des feuilles
B29C 48/88 - Traitement thermique de l’écoulement de matière extrudée, p. ex. refroidissement
55.
WEIGHT PREDICTION DEVICE, CRANE CONTROL DEVICE, CRANE, WEIGHT PREDICTION METHOD, AND WEIGHT PREDICTION PROGRAM
NATIONAL UNIVERSITY CORPORATION NARA INSTITUTE OF SCIENCE AND TECHNOLOGY (Japon)
Inventeur(s)
Kawabata, Kaoru
Hirabayashi, Terushi
Ise, Akifumi
Matsubara, Takamitsu
Sasaki, Hikaru
Watanabe, Go
Abrégé
The present invention improves the efficiency of transporting sediment by a crane equipped with a bucket. A weight prediction device (1) comprises: an image acquisition unit (101) that acquires an image of an object being gripped that is captured during the period from the start of gripping to the completion of gripping; and a weight prediction unit (102) that predicts the weight of the object using a prediction model (112) constructed by machine learning the relationship between the image of the object being gripped that is captured during previous lifting of the object and the weight of the lifted object.
B66C 13/32 - Systèmes ou dispositifs de commande pour entraînement électrique pour actionner les treuils des auges de bennes preneuses au moyen d'un ou plusieurs moteurs électriques utilisés à la fois pour le levage et l'affalement des charges et pour l'ouverture et la fermeture des mâchoires de l'auge
This water electrolysis device comprises: a water electrolysis tank (20) in which a plurality of electrolysis cells (10) each including a solid polymer electrolyte membrane (4) are connected in series; and a plurality of short circuits (60) connected to each of the plurality of electrolysis cells (10) and which short the electrolysis cells (10) upon stoppage of power supply to the water electrolysis tank (20).
C25B 9/00 - Cellules ou assemblages de cellulesÉléments de structure des cellulesAssemblages d'éléments de structure, p. ex. assemblages d'électrode-diaphragmeCaractéristiques des cellules relatives aux procédés
C25B 1/04 - Hydrogène ou oxygène par électrolyse de l'eau
C25B 9/23 - Cellules comprenant des électrodes fixes de dimensions stablesAssemblages de leurs éléments de structure avec des diaphragmes comprenant des membranes échangeuses d'ions dans ou sur lesquelles est incrusté du matériau pour électrode
C25B 9/77 - Assemblages comprenant plusieurs cellules du type filtre-presse avec diaphragmes
In the present invention, a storage unit of a monitoring assistance system (6) stores first correlation information indicating the relationship between turbocharger efficiency and reference measurement values obtained by converting, to a prescribed standard state, respective measurement values of parameters in a prescribed first parameter group acquired by a first sensor group during a land test of a diesel engine (1). A correction unit converts measurement values of the first parameter group acquired by the first sensor group when a vessel (100) is underway, and acquires first corrected measurement values. A computation unit obtains the amount of change in turbocharger efficiency on the basis of the first correlation information and the first corrected measurement values of the first parameter group. It is thereby possible to accurately evaluate the turbocharger efficiency of a diesel engine (1) upon excluding the effects of sea conditions, etc. It is also possible to accurately evaluate the fuel consumption rate of the diesel engine (1) by calculating the fuel consumption rate using the turbocharger efficiency.
B63B 49/00 - Aménagements relatifs aux instruments nautiques ou d'aide à la navigation
B63B 79/30 - Surveillance des caractéristiques ou des paramètres de fonctionnement des navires en opération pour le diagnostic, les essais ou la prévision de l’intégrité ou des performances des navires
F02B 39/16 - Autres mesures de sécurité pour les pompes ou autres commandes de celles-ci
F02D 45/00 - Commande électrique non prévue dans les groupes
This cooling system 1 for an electronic apparatus cools an electronic apparatus 22, the cooling system comprising: a float body 10 floating on a water surface WS; a container 21 which accommodates the electronic apparatus 22, is suspended from the float body 10, and is disposed in water at a depth D spaced apart from a lake bottom BW; and a heat exchange unit 23 which is provided to the container 21 and dissipates heat from the electronic apparatus 22 to the water around the container 21.
An ultrasonic phased array inspection device (1) comprises flexible plates (2, 3), array probes (4, 5), and a connection body (6). The flexible plates (2, 3) run along an inner circumferential surface of a pipe (P). The array probes (4, 5) are provided on the flexible plates (2, 3) and use phased array technology to transmit and receive ultrasonic waves. The array probes (4, 5) include a prescribed number of piezoelectric element groups (40, 50) that are arranged in the inner circumferential direction of the pipe (P). The connection body (6) is connected to the flexible plates (2, 3). The connection body (6) has pulling parts (61, 62) that are pulled in the axial direction of the pipe (P) and serve as force-receiving parts that receive force for movement in the axial direction of the pipe (P).
Determination of presence or absence of a defect having irregular position, size, shape, and/or the like in an image are made automatically. An inspection device includes: an inspection image obtaining section that obtains an inspection image used to determine presence or absence of an internal defect in an inspection target; and a defect presence/absence determining section that determines presence or absence of a defect with use of a restored image generated by inputting the inspection image into a generative model constructed by machine learning that uses, as training data, an image of an inspection target in which a defect is absent, the generative model being constructed so as to generate a new image having a similar feature to that of an image input into the generative model.
NATIONAL UNIVERSITY CORPORATION NARA INSTITUTE OF SCIENCE AND TECHNOLOGY (Japon)
Inventeur(s)
Ise, Akifumi
Kawabata, Kaoru
Matsubara, Takamitsu
Michael, Brendan William Bharrat
Abrégé
In the present invention, a dynamic model in which changes in the temporal direction and the spatial direction of a phenomenon to be analyzed are accurately captured is generated with a relatively small amount of calculation. This information device (1) comprises: a reconstruction unit (103) for generating reconstructed data obtained by reconstructing time series data (111) from a frequency component of a part of the time series data, said times series data being obtained by observing a phenomenon to be analyzed in a plant; and an analysis unit (104) that performs spatio-temporal analysis of the reconstructed data and generates a dynamic model (112).
A waste incineration facility (1) comprises: an incinerator (3) for incinerating waste; an exhaust gas flow path (4) through which exhaust gas discharged from the incinerator (3) flows; a dust collector (42) provided in the exhaust gas flow path (4); a recirculation exhaust gas line (6) that is connected to an extraction position (P1) downstream of the dust collector (42) in the exhaust gas flow path (4), and that extracts some of the exhaust gas flowing in the exhaust gas flow path (4) as recirculation exhaust gas and supplies the recirculation exhaust gas into the incinerator (3); and an oxygen-mixing unit(68) for mixing high-concentration oxygen gas having a higher oxygen concentration than air with the recirculation exhaust gas flowing through the recirculation exhaust gas line (6). Thus, it is possible to easily reduce the amount of exhaust gas.
F23L 7/00 - Alimentation du foyer en liquides ou gaz non combustibles autres que l'air, p. ex. oxygène, vapeur d'eau
F23C 9/00 - Appareils à combustion caractérisés par des dispositions pour renvoyer les produits de combustion ou les gaz de fumée dans la chambre de combustion
F23G 7/06 - 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
F23J 15/00 - Aménagement des dispositifs de traitement de fumées ou de vapeurs
F23L 9/02 - Passages ou ouvertures pour introduire l'air secondaire nécessaire à la combustion complète du combustible l'air étant introduit au-dessus du foyer
This waste material incineration facility (1) comprises: an incineration furnace (3) that incinerates waste material; a waste material pit (2) that retains waste material before being put into the incineration furnace (3); an exhaust gas flow path (4) through which exhaust gas discharged from the incineration furnace (3) flows; a dust collector (42) that is provided to the exhaust gas flow path (4); a carbon dioxide recovery device (44) that is provided downstream of the dust collector (42) in the exhaust gas flow path (4), and that recovers carbon dioxide from the exhaust gas; and a processed gas line (5) that feeds, as a processed gas, at least a portion of the exhaust gas passed through the carbon dioxide recovery device (44) to the waste material pit (2) and/or the incineration furnace (3). This makes it possible to reduce the amount of exhaust gas to discharged outside.
F23C 9/00 - Appareils à combustion caractérisés par des dispositions pour renvoyer les produits de combustion ou les gaz de fumée dans la chambre de combustion
F23J 15/00 - Aménagement des dispositifs de traitement de fumées ou de vapeurs
Disclosed is a solid-state battery (100) which is provided with: a storage target (101) including a laminate (110) that has a power generation element (112); and a metal case (e.g., cylindrical body (130)) for storing the storage target (101). The laminate (110) has two main surfaces (110m) opposing each other. The case has two plate parts (130m) opposing each other so as to sandwich the laminate (110). At least one plate part selected from the two plate parts (130m) has a curved section (130mc) that is curved so as to have a shape protruding toward the inner side of the case in a non-storage state where the storage target (101) is not stored in the case. The case has such a shape that a spring force is generated against the two plate parts (130m) in a direction connecting the two plate parts (130m). The two main surfaces (110m) are pressed by the two plate parts (130m) in a storage state where the storage target (101) is stored in the case.
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
H01M 50/131 - Boîtiers primairesFourreaux ou enveloppes caractérisés par les propriétés physiques, p. ex. la perméabilité au gaz, les dimensions ou la résistance à la chaleur
A separation member disclosed herein comprises: a porous support; and a separation layer disposed on the porous support. The separation layer includes a zeolite layer containing aluminosilicate. The total number Nm of atoms of alkali metal elements and alkaline earth metal elements after period 3 contained in the separation layer is at most 2.0% of the number Nt of tetracoordinate atoms contained in the separation layer.
B01D 69/02 - Membranes semi-perméables destinées aux procédés ou aux appareils de séparation, caractérisées par leur forme, leur structure ou leurs propriétésProcédés spécialement adaptés à leur fabrication caractérisées par leurs propriétés
B01D 69/10 - Membranes sur supportSupports pour membranes
C04B 41/85 - Revêtement ou imprégnation avec des substances inorganiques
B01D 53/22 - Séparation de gaz ou de vapeursRécupération de vapeurs de solvants volatils dans les gazÉpuration chimique ou biologique des gaz résiduaires, p. ex. gaz d'échappement des moteurs à combustion, fumées, vapeurs, gaz de combustion ou aérosols par diffusion
66.
INFORMATION PROCESSING DEVICE, SCHEDULE GENERATION METHOD, SCHEDULE GENERATION PROGRAM, AND CONTROL SYSTEM
The present invention increases the accuracy of automatic control of a crane. An information processing device (1) comprises: a midway state determination unit (103) that determines whether the difference between an expected midway state predicted by a control simulation based on a first schedule and an actual midway state when control is actually performed according to the first schedule is within an allowable range; and a schedule generation unit (101) that generates a second schedule corresponding to the actual midway state when it is determined that the difference is not within the allowable range.
B65F 5/00 - Mise en tas ou enlèvement des ordures autrement que par récipients ou véhicules
B65G 63/00 - Transfert ou transbordement aux zones de stockage, aux gares de marchandises ou aux portsInstallations de gares de triage
F23G 5/44 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets ou de combustibles pauvres Parties constitutivesAccessoires
A hydrocarbon oxidation catalyst according to the present invention comprises: a catalyst carrier that contains zirconia; and an active metal that is supported by the catalyst carrier. The zirconia comprises a monoclinic zirconia phase and a tetragonal zirconia phase. With respect to the zirconia, the ratio of the peak intensity of the tetragonal zirconia phase to the peak intensity of the monoclinic zirconia phase is not less than 0.005 but less than 0.8 as determined by X-ray diffractometry, and the crystallite diameter of the monoclinic zirconia phase is 35 Å to 115 Å.
METHOD OF ESTIMATING SOLID SOLUTION AMOUNT OF ADDITIVE ELEMENT IN ALUMINUM ALLOY, METHOD OF PRODUCING SPECIMEN, AND STRENGTH EVALUATION METHOD USING THE SAME
Provided is a method of estimating a solid solution amount of Mg for estimating a change with time of the solid solution amount of Mg which is an example of additive elements in an aluminum alloy. The method of estimating the solid solution amount of Mg includes a step of identifying a precipitate of the aluminum alloy with an equilibrium diagram prepared by simulation based on the CALPHAD method. The method of estimating the solid solution amount of Mg further includes a step of estimating the change with time of the solid solution amount of Mg from the identified precipitate with simulation based on the Langer-Schwartz theory and a numerical solution with the Kampmann-Wagner method.
C22F 1/04 - Modification de la structure physique des métaux ou alliages non ferreux par traitement thermique ou par travail à chaud ou à froid de l'aluminium ou de ses alliages
C22C 21/06 - Alliages à base d'aluminium avec le magnésium comme second constituant majeur
69.
INFORMATION PROCESSING DEVICE, DETERMINATION METHOD, DETERMINATION PROGRAM, AND CONTROL SYSTEM
The present invention detects a target waste material using a general-purpose method. An information processing device (1) comprises: a candidate region extraction unit (103) that extracts, as a candidate region, a region of a pit image (202) that captures a pit interior containing waste materials, said region comprising pixels within a prescribed color range that corresponds to a target waste material; and a determination unit (104) that, on the basis of feature values generated on the basis of the colors of the pixels constituting the candidate region, determines whether the waste material shown in the candidate region is the target waste material.
F23G 5/02 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets ou de combustibles pauvres comportant un traitement préalable
The present invention achieves versatile movement control for a device for cleaning tubes. A control device (1) comprises: a tube detection unit (101) that detects a tube from an image captured by an imaging device (271) attached to a cleaning device (2) for cleaning surfaces of tubes; an angle specifying unit (102) that specifies the inclination angle of the tube detected by the tube detection unit (101); and a movement control unit (104) that controls the movement of the cleaning device (2) on the basis of the inclination angle.
The disclosed manufacturing method includes step (i) and step (ii) in the stated order. Step (i) is for preparing a laminate (100) that includes: a power generation element (110) including a positive electrode layer (111), a negative electrode layer (112), and a solid electrolyte layer (113) disposed between the positive electrode layer (111) and the negative electrode layer (112); and at least one metal foil (121) disposed on at least one main surface of the power generation element (110). Step (ii) is for splitting the power generation element (110) at a linear division position (100d), and cutting the at least one metal foil (121) at the division position (100d).
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
The objective of the present invention is to automatically set an appropriate determination region in an image of an inspection target object. An information processing device (1) is provided with: a detecting unit (101) for detecting a feature point having a known positional relationship with a determination region that is to be inspected, from an image (111) of the inspection target object; and a setting unit (102) for setting the determination region on the basis of the feature point detected by the detecting unit (101).
A method for manufacturing a fiber-containing sheet. In extruding resin into sheet form using a T-die, the extrusion from the T-die is performed with a first resin for forming a core layer and a second resin for forming both skin layers on both sides of the core layer laminated together. The first resin contains fiber material and the second resin does not contain fiber material.
B29C 48/23 - Articles comprenant au moins deux composants, p. ex. couches coextrudées les composants étant des couches avec des moyens pour éviter l’adhésion des couches, p. ex. pour former des couches pelables
B29C 48/07 - Moulage par extrusion, c.-à-d. en exprimant la matière à mouler dans une matrice ou une filière qui lui donne la forme désiréeAppareils à cet effet caractérisées par la forme à l’extrusion de la matière extrudée plate, p. ex. panneaux
B29C 48/00 - Moulage par extrusion, c.-à-d. en exprimant la matière à mouler dans une matrice ou une filière qui lui donne la forme désiréeAppareils à cet effet
B29C 48/305 - Filières ou matrices d’extrusion avec une large ouverture, p. ex. pour former des feuilles
74.
EXHAUST PROCESSING DEVICE, ENGINE SYSTEM, AND EXHAUST PROCESSING METHOD
An exhaust processing device (6) is provided with a processing housing (61) and a catalyst unit (62). Exhaust from an engine (1) that uses a methane-containing gas as fuel is introduced into the processing housing (61). The catalyst unit (62) is accommodated in the processing housing (61) and oxidizes unburned methane contained in the exhaust. When the temperature of the catalyst unit (62) is less than a prescribed normal temperature, the catalyst unit (62) oxidizes carbon monoxide contained in the exhaust and increases the temperature to the normal temperature or higher by means of oxidation reaction heat of the carbon monoxide. Thus, even when the temperature of the exhaust supplied to the catalyst unit (62) is less than the normal temperature, the temperature of the catalyst unit (62) can be quickly increased to the normal temperature or higher. Accordingly, methane contained in the exhaust can be favorably oxidized.
F01N 3/20 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les méthodes d'opérationCommande spécialement adaptés à la conversion catalytique
F02M 21/02 - Appareils pour alimenter les moteurs en combustibles non liquides, p. ex. en combustibles gazeux stockés sous forme liquide en combustibles gazeux
F02D 45/00 - Commande électrique non prévue dans les groupes
75.
PREDICTION DEVICE, PREDICTION METHOD, PREDICTION PROGRAM, FACILITY CONTROL DEVICE, FACILITY CONTROL METHOD, AND CONTROL PROGRAM
The present invention contributes to improvement of operation of an incineration facility. A prediction device (1) is provided with: a movement data generation unit (103) that generates, from a plurality of time-series images obtained by capturing a hopper from above in an incineration facility where the incineration object injected into the hopper is fed into an incineration furnace at a designated speed, movement data indicating the moving state of the incineration object; and a characteristic prediction unit (105) that predicts characteristics of the incineration object on the basis of the generated movement data and the speed.
F23G 5/44 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets ou de combustibles pauvres Parties constitutivesAccessoires
76.
Method for producing carbon nanotube twisted thread, and production apparatus of carbon nanotube twisted thread
A plurality of CNTs are drawn out of VACNTs so as to be continuous in lines and are bundled into a thread shape, and a temporary thread bundled into a thread shape is temporarily wound on the first winder. The first winder is then rotated about an axis along a feeding direction of the temporary thread to twist the temporary thread while the temporary thread is fed from the first winder.
The present invention detects bridge occurrence at an early stage. A detection device (1) comprises: a movement data generation unit (103) that generates, from a plurality of time-series images of a hopper housing objects as captured from above, movement data indicating the movement state of the objects during the period in which the plurality of images were captured; and a detection unit (104) that detects bridge occurrence on the basis of the movement data.
F23G 5/44 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets ou de combustibles pauvres Parties constitutivesAccessoires
An inspection device (1) detects a flaw in a sheet-like or plate-like light-transmissive target (9). A profile acquisition unit of a flaw detection unit acquires, from a captured image, a plurality of brightness profiles in a plurality of inspection regions, which linearly extend in a second direction at a plurality of inspection positions in a first direction. A periodic flaw identification unit detects a periodic change in brightness for each of the plurality of brightness profiles. The periodic flaw identification unit determines that there is a first periodic flaw if there is a common periodic change in brightness in the plurality of brightness profiles in the same period, and determines that there is a second periodic flaw if a periodic change in brightness that is the same as the periodic change in brightness present in one brightness profile among the plurality of brightness profiles is not present in the other brightness profiles. As a result, a flaw can be detected while automatically identifying the type thereof.
A vacuum film formation device (100) comprising: a chamber (10) that is maintained in a vacuum state; a rotating drum (20) disposed in the chamber (10); an unwinding roll (21) from which a long film (40) is let out; cutting mechanisms (52, 62) that cut out a portion of the long film (40) let out from the unwinding roll (21); a film formation part (1) that is disposed in the chamber(10), and forms a film on a cut-out film (40a) which is cut out from the long film (40) and tightly attached to the outer circumference of the rotating drum (20); connecting mechanisms (53, 63) that connect opposite ends of the cut-out film (40a) on which a predetermined number of layers of the film are formed, to the long film (40) divided by cutting out by the cutting mechanisms (52, 62); and a winding roll (31) around which the long film (40) connected by the connecting mechanisms (53, 63) is wound.
The present invention performs accurate determination even for an image for which erroneous determination may easily be made. An information processing device (1) comprises a classification unit (105) that acquires an output value by inputting an inspection image into a classification model, which is generated through training that decreases a distance between features extracted from a group of images without noise in a feature space, and a determination unit (102) that determines whether or not the inspection image has a defect by applying a technique for the group of images without noise or a technique for a group of images with noise according to the output value.
Provided is a zeolite membrane composite used for separation of a mixture, which has a high separation factor and is easily produced while maintaining a practically usable permeation flow rate. The zeolite membrane composite includes: a porous support; and an aluminosilicate zeolite membrane formed on a surface of the porous support and having a framework density of 10 or more and 17 or less. A Si/Al molar ratio of a surface of the zeolite membrane is 5 or more, and a ratio (Ae/A0) of a developed membrane area Ae in consideration of unevenness on the surface of the zeolite membrane to an apparent membrane area A0 not in consideration of the unevenness on the surface of the zeolite membrane is 2 or more and 20 or less.
B01J 20/28 - Compositions absorbantes ou adsorbantes solides ou compositions facilitant la filtrationAbsorbants ou adsorbants pour la chromatographieProcédés pour leur préparation, régénération ou réactivation caractérisées par leur forme ou leurs propriétés physiques
C01B 39/48 - Autres types caractérisés par leur diagramme de diffraction des rayons X et par leur composition définie utilisant au moins un agent structurant organique
A fuel cell system includes a reformer, fuel cell stacks, and an exhaust-gas combustor. The reformer has a tubular shape extending in an axial direction and reforms raw fuel into combustion gas. The fuel cell stacks generate electric power from the fuel gas and oxidant gas. The fuel cell stacks are arranged radially outward of the reformer in a circumferential direction to face the reformer in a radial direction. The exhaust-gas combustor burns fuel gas that is not used and included in exhaust gas from the fuel cell stacks. The exhaust-gas combustor is arranged radially inward of the reformer to face the reformer in the radial direction. Each fuel cell stack includes flat plate type cells stacked in the radial direction. This achieves downsizing of the fuel cell system.
H01M 8/243 - Groupement d'éléments élémentaires de forme tubulaire ou cylindrique
H01M 8/2484 - Détails des groupements d'éléments à combustible caractérisés par les collecteurs d’admission externes
H01M 8/0612 - Combinaison d’éléments à combustible avec des moyens de production de réactifs ou pour le traitement de résidus avec des moyens de production des réactifs gazeux à partir de matériaux contenant du carbone
H01M 8/0662 - Traitement des réactifs gazeux ou des résidus gazeux, p. ex. nettoyage
H01M 8/2475 - Enceintes, boîtiers ou récipients d’empilements d’éléments à combustible
H01M 8/12 - Éléments à combustible avec électrolytes solides fonctionnant à haute température, p. ex. avec un électrolyte en ZrO2 stabilisé
A powder supply apparatus includes a measuring shaft having a recess to be filled with powder, and a powder filling mechanism for filling the recess of the measuring shaft with the powder. The powder supply apparatus includes a rotary cylinder for sliding the measuring shaft along an axis of the measuring shaft, and a distal-end cover plate of a cylinder where the powder in the recess is leveled off by a slide of the measuring shaft. The rotary cylinder directs the recess downward by rotating the measuring shaft about the axis of the measuring shaft and supplies the leveled powder in the recess downward from the recess to a lifting plate at a predetermined position by dropping the powder.
G01F 11/10 - Appareils qu'il faut actionner de l'extérieur, adaptés à chaque opération répétée et identique, pour mesurer et séparer le volume prédéterminé d'un fluide ou d'un matériau solide fluent à partir d'une alimentation ou d'un récipient sans tenir compte du poids, et pour fournir ce volume avec chambres de mesure se déplaçant au cours de l'opération
G01F 11/26 - Appareils qu'il faut actionner de l'extérieur, adaptés à chaque opération répétée et identique, pour mesurer et séparer le volume prédéterminé d'un fluide ou d'un matériau solide fluent à partir d'une alimentation ou d'un récipient sans tenir compte du poids, et pour fournir ce volume avec chambres de mesure se déplaçant au cours de l'opération dans lesquels la chambre de mesure est remplie et vidée en basculant ou en renversant le réservoir d'alimentation, p. ex. appareil à vider les bouteilles
84.
ELECTROSTATIC FILM FORMATION DEVICE AND METHOD FOR MANUFACTURING ALL SOLID SECONDARY BATTERY USING SAME
An electrostatic film formation device (1) comprises: a powder feeder (2) for feeding a powder (P); a substrate (5) on which a powder film (F) is formed from the power (P); and a DC power supply (3) for applying voltage to the powder feeder (2) and the substrate (5). The DC power supply (3) causes, by application of voltage, the powder (P) from the powder feeder (2) to move to the substrate (5) by an electrostatic force. The electrostatic film formation device (1) further comprises a masking member (4) disposed between the powder feeder (2) and the substrate (5). The masking member (4) has formed therein a passing port (40) through which the powder (P) passes from the powder feeder (2) to the substrate (5). The masking member (4) is disposed in a state of being not in contact with the formed powder film (F).
B05D 1/04 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces réalisés par pulvérisation comportant l'emploi d'un champ électrostatique
B05D 1/32 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces en utilisant des moyens pour protéger des parties de surface à ne pas recouvrir, p. ex. en se servant de stencils, d'enduits de protection
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
B05B 5/08 - Installations pour appliquer des liquides ou d'autres matériaux fluides à des objets
85.
Device for testing solubility of drugs in gastrointestinal tract
Provided is a device for testing solubility of drugs in gastrointestinal tract. The device for testing solubility includes: a plurality of vessels respectively corresponding to gastrointestinal tract of a living body; digestive juice supply devices supplying digestive juice to the vessel requiring the supply of the digestive juice; liquid delivery paths each being provided between the vessels and extending from an upstream-side vessel to a downstream-side vessel; delivery driving sources applying a fluid force to a mixed liquid of the digestive juice and an oral drug in the liquid delivery paths; and a control device controlling delivery speeds of the delivery driving sources according to a temporal change of a flow rate from an upstream side to a downstream side of the gastrointestinal tract of the living body.
NATIONAL INSTITUTE OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGY (Japon)
Inventeur(s)
Kawabata, Kaoru
Ise, Akifumi
Segawa, Takehiko
Abrégé
A monitoring device (100) according to one embodiment of the present invention comprises: a lens (4); a cover (5) for covering a peripheral surface of the lens (4); and a plasma actuator (7) that includes a first electrode (71) for generating, towards the center axis (C) of the cover (5), plasma (P) and/or an induced jet flow (F) induced by a dielectric barrier charge, and that removes dust (D) by means of the plasma (P) and/or the induced jet flow (F).
An ultrasonic phased array detection device sequentially performing flaw detection testing on a welded joint of tubes arranged in a row. The ultrasonic phased array detection device includes: a flaw detection testing unit inserted into a target tube targeted for flaw detection testing among the tubes, and performing flaw detection testing on the welded joint of the target tube; a drive mechanism rotating the flaw detection testing unit around an axis of the target tube; and a jig to be inserted and fixed in a tube different from the target tube. The flaw detection testing unit has a flaw detection part incorporating a phased array probe performing ultrasonic phased array method, and has a pressing mechanism pressing the flaw detection part against an inner surface of the target tube.
The present invention provides a secondary cell that can be downsized with improved cell performance, and a method for manufacturing the same. In an example of an embodiment according to the present invention, a secondary cell includes an outer package and an object to be housed in the outer package. The object to be housed includes an electrode body. The outer package has a pressing portion for locally pressing at least one of the obverse side and the reverse side of the object to be housed.
H01M 50/103 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique prismatique ou rectangulaire
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
2 and the water-soluble impurities by bringing the raw material gas into contact with water; and a first supply line that supplies the raw material gas from which the water-soluble impurities are removed from the cleaning tank to the reaction tank; and a second supply line supplies water produced in the reaction tank from the reaction tank to the cleaning tank to bring the produced water into contact with the raw material gas in the cleaning tank.
C07C 1/04 - 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 de monoxyde de carbone avec de l'hydrogène
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
90.
Water electrolysis device performance recovery method and water electrolysis device
A method of recovering performance of a water electrolysis system is a method of recovering performance of a water electrolysis system which includes a water electrolysis stack having a solid polymer membrane, a positive electrode, and a negative electrode, the method including the steps of: bringing an operating state of the water electrolysis system into a state of low-temperature operation in which a temperature of water is lower than a temperature of water during ordinary operation in which water electrolysis is carried out by the water electrolysis stack; and in the state of the low-temperature operation, passing an electric current through each of the positive electrode and the negative electrode.
C25B 1/04 - Hydrogène ou oxygène par électrolyse de l'eau
C25B 9/73 - Assemblages comprenant plusieurs cellules du type filtre-presse
C25B 9/67 - Moyens de chauffage ou de refroidissement
C25B 9/23 - Cellules comprenant des électrodes fixes de dimensions stablesAssemblages de leurs éléments de structure avec des diaphragmes comprenant des membranes échangeuses d'ions dans ou sur lesquelles est incrusté du matériau pour électrode
C25B 15/02 - Commande ou régulation des opérations
C25B 15/021 - Commande ou régulation des opérations de chauffage ou de refroidissement
The present invention relates to an all-solid-state battery and a method for manufacturing the same. In an example of an embodiment of the all-solid-state battery and the method for manufacturing the same according to the present invention, a positive current collector is folded to electrically connect positive layers while a negative current collector is folded to electrically connect negative layers.
H01M 10/0583 - Structure ou fabrication d'accumulateurs à éléments de structure pliés à l'exception des éléments enroulés, c.-à-d. des électrodes positives ou négatives pliées ou des séparateurs pliés, p. ex. à électrodes ou séparateurs en forme de Z
H01M 50/548 - Bornes caractérisées par la position des terminaux sur les cellules sur des côtés opposés de la cellule
H01M 50/553 - Bornes spécialement adaptées aux cellules prismatiques, de type poche ou rectangulaires
H01M 50/533 - Connexions d’électrodes dans un boîtier de batterie caractérisées par la forme des conducteurs ou des languettes
H01M 50/186 - Éléments de scellement caractérisés par la position des éléments de scellement
H01M 50/178 - Dispositions pour introduire des connecteurs électriques dans ou à travers des boîtiers adaptées à la forme des cellules pour des cellules en forme de poches ou de sacs souples
92.
SECONDARY BATTERY AND METHOD FOR MANUFACTURING SAME
The present invention comprises an outer cladding (2), and contents (3, 4) accommodated in the outer cladding (2). The contents (3, 4) include an electrode body (4). The outer cladding (2) applies uniform pressure to each of the obverse surface and the reverse surface of the contents (3, 4) due to the elastic force of the outer cladding (2).
This cleaning device 100 comprises: a device body 1; a traveling mechanism 2 which is provided to the device body 1 and travels on a plurality of tubes P arranged in a predetermined arrangement direction; a cleaning mechanism 3 which descends from the device body 1, enters between two tubes P included in the plurality of tubes P, and cleans matter attached to the surfaces of the tubes P; a first sensor 71a which is provided to the device body 1 and detects the relative position in the arrangement direction with respect to a first tube P1 which is one tube P among the two tubes P; and a second sensor 71b which is provided to the device body 1 and detects the relative position in the arrangement direction with respect to a second tube P2 which is the other tube P among the two tubes P.
B08B 1/04 - Nettoyage par des procédés impliquant l'utilisation d'outils, de brosses ou d'éléments analogues utilisant des éléments actifs rotatifs
F22B 37/48 - Dispositifs ou agencements pour enlever l'eau, les minéraux ou les boues des chaudières
F28G 3/10 - Accessoires rotatifs comportant des grattoirs, des marteaux ou des couteaux, p. ex. montés rigidement
F28G 15/04 - Dispositions pour l'alimentation ou l'entraînement, p. ex. par force motrice
G01B 7/00 - Dispositions pour la mesure caractérisées par l'utilisation de techniques électriques ou magnétiques
G01B 11/26 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des angles ou des cônesDispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour tester l'alignement des axes
F23J 3/00 - Enlèvement des résidus solides se trouvant dans les passages ou dans les chambres situés au delà du foyer, p. ex. dans les conduits de fumée par souffleurs de suie
This flaw detection test method (1) uses a flaw detection image of an object from an ultrasonic flaw detector (hereinafter referred to as a flaw detector). The flaw detection test method (1) comprises: a terminal attachment step (2) for allowing a worker to wear a wearable terminal that displays a flaw detection image; a device disposition step (3) for disposing a flaw detector on an object; and a scanning step (6) for causing the flaw detector to scan the object. The flaw detection test method (1) further comprises: a scanning state checking step for allowing the worker to check, using the wearable terminal, a flaw detection image from the flaw detector performing the scanning; and a scanning state adjustment step for, when the checked flaw detection image is inappropriate, allowing the worker to adjust the scanning state of the flaw detector such that the flaw detection image becomes appropriate. The flaw detection test method (1) further comprises a storage step for electronically storing the flaw detection image when the checked flaw detection image is appropriate or when the scanning state has been adjusted.
BRGBRGG-R plane, a display is plotted for the experimentally-obtained presence/absence of fusion flaws occurring during gap welding, and an assessment line based on the presence/absence of fusion flaws in the gap walls is drawn. The gap welding is performed by setting the welding conditions so as to form a region that has less fusion flaws than this assessment line.
B23K 9/095 - Surveillance ou commande automatique des paramètres de soudage
B23K 31/00 - Procédés relevant de la présente sous-classe, spécialement adaptés à des objets ou des buts particuliers, mais non couverts par un seul des groupes principaux
96.
PRESSURIZING SUCTION-ATTACHMENT TABLE AND PRESSURIZING DEVICE EQUIPPED WITH SAME
A pressurizing suction-attachment table (1) is provided with: a porous body (2) having a suction-attachment surface (20) on which an object (O) can be placed; an elastic member (3) with which the porous body (2) is directly fitted; and a frame body (5) supporting the porous body (2) with the elastic member (3) therebetween. An aspiration space (4) is formed between the porous body (2) and the frame body (5). The pressurizing suction-attachment table (1) is provided with an aspirator (6) capable of aspirating the aspiration space (4) to thereby cause the object (O) to be suction-attached to the suction-attachment surface (20). The porous body (2) has an opposite surface (21) positioned on a side opposite the suction-attachment surface (20). The frame body (5) includes a receiving surface (51) for receiving the opposite surface (21) when the elastic member (3) is elastically deformed due to pressurization of the object (O) placed on the suction-attachment surface (20) onto the suction-attachment surface (20). The pressurizing suction-attachment table (1) is configured such that, when the opposite surface (21) is received by the receiving surface (51), the porous body (2) applies a uniform reactive force to the object (O) being pressurized.
H01L 21/683 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants pour le maintien ou la préhension
97.
INSPECTION DEVICE, INSPECTION METHOD, AND INSPECTION PROGRAM
This invention automates the determination of whether there is a defect of unspecified position, size, shape, etc., in an image. This inspection device (1) comprises an inspection image acquisition unit (103) for acquiring an inspection image for determining whether there is an internal defect in an object under inspection and a defect presence determination unit (105) for determining whether there is a defect using a reconstructed image generated by inputting the inspection image into a generation model that has been built—through machine learning using, as training data, images of objects under inspection without defects—to generate a new image having similar characteristics to those of an input image.
In the present invention, a final determination result is derived by taking into consideration determination results by respective determination units in accordance with target data. An information processing device (1) is provided with: a reliability determination unit (103) that determines respective reliabilities of determination results by determination units (102A to 102C) each for determining a predetermined determination matter from an inspection image, on the basis of the inspection image; and an overall determination unit (104) that determines the predetermined determination matter by using the respective determination results and the reliabilities.
A residual stress improvement method for a canister (8) that houses a fuel assembly (9). According to the residual stress improvement method, the canister (8), which comprises a cylindrical canister body part (81) that has an upper opening to which a canister lid part (83) is welded, is arranged inside a cylindrical cask body part (71), and the cask body part (71) is filled with water such that an upper end part (86) of the canister (8) is surrounded and covered by water. Then compressive stress is applied to a prescribed region of the upper end part (86) of the canister (8) in the water. The water makes it possible both to block radiation and to easily apply compressive stress to the canister (8).
Disclosed is an all-solid-state battery including a positive electrode, a negative electrode, and a solid electrolyte layer interposed between the positive electrode and the negative electrode. At least one of the positive electrode and the negative electrode contains first solid electrolyte particles. The solid electrolyte layer contains second solid electrolyte particles having ion conductivity. An average particle diameter D1 of the first solid electrolyte particles, and an average particle diameter D2 of the second solid electrolyte particles satisfy D2>D1.
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c.-à-d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
H01M 10/0525 - Batteries du type "rocking chair" ou "fauteuil à bascule", p. ex. batteries à insertion ou intercalation de lithium dans les deux électrodesBatteries à l'ion lithium
brevets
