An information processing device 23 comprises: a power demand prediction unit 244 that predicts a first power demand in a first plant factory; a charging/discharging plan generation unit 246 that generates a first charging/discharging plan as a plan for charging/discharging a portable power storage battery capable of performing charging/discharging with respect to the first plant factory; and a switching unit 247 that switches the state of the charging/discharging of the portable power storage battery on the basis of the first charging/discharging plan, to thereby control the supply of power to the first plant factory. As a result, it is possible to provide the information processing device 23, an information processing method, and a food product delivery system, which make it possible to perform charging/discharging between a plant factory and a portable power storage battery and to more efficiently control the supply of power to the plant factory.
A food transportation assistance system 20 comprises: an input device 24 that receives shipping source information, which contains first location information being location information of a plurality of shipping sources including a plant factory and information about foods shipped from the shipping sources, and shipping destination information, which contains second location information being location information of a shipping destination and information about foods requested by the shipping destination; an arithmetic device 22 that determines a matching rate between the information about foods contained in the shipping source information and the information about foods contained in the shipping destination information, and determines transportation information for transporting foods from the shipping sources to the shipping destination; and an output device 27 that outputs, as a shipping information candidate, a shipping source candidate from among the plurality of shipping sources, on the basis of the matching rate and the transportation information. Accordingly, it is possible to achieve more efficient food transportation when a plant factory is included as a shipping source.
An information processing system comprising: an acceptance unit which, when shipping a product produced by a shipper including a vegetable factory to a shipment recipient, accepts shipment-confirmed information that represents confirmed information regarding product shipment and purchase application information that represents an application for the purchase of product by the shipment recipient; and a processing unit that performs, on the basis of a predetermined optimization criterion, sale-and-purchase matching to have shipment-confirmed information and purchase application information matched, in order of priority, so as to determine the shipment recipient of product. Thus, when a vegetable factory is included as the shipper, it is possible to improve the facility operating rate of the vegetable factory and reduce product disposal.
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
Inventeur(s)
Kayukawa, Tomoki
Yamamoto, Motohiro
Kuramoto, Mikiko
Tsujino, Jiro
Murayama, Takeshi
Fujiwara, Daisaku
Okuda, Toshihiro
Abrégé
W0W1W1W0W0≤2.0 is satisfied, and the thickness of the die is 5-12 mm. According to the present invention, it is possible to provide a method that is for manufacturing a desulfurization agent and that is capable of manufacturing a desulfurization agent having high hardness and excellent desulfurization performance with good handling properties, and a desulfurization method that is capable of performing efficient desulfurization of a material to be treated.
Hokkaido Electric Power Company, Incorporated (Japon)
Inventeur(s)
Hashida, Shukichi
Abrégé
Provided is a carbon dioxide absorbent for absorbing carbon dioxide included in a gas. The carbon dioxide absorbent includes biomass combustion ash that is combustion ash of biomass, the biomass combustion ash including calcium oxide. The biomass may include at least one of wood, a livestock excrement, sewage sludge, or an agricultural residue. The biomass may be excrement evacuated by a chicken for a chicken egg. The carbon dioxide absorbent may be slurry including the biomass combustion ash and water. The carbon dioxide absorbent may be a granule, and may include the biomass combustion ash and a binder.
B01J 20/04 - Compositions absorbantes ou adsorbantes solides ou compositions facilitant la filtrationAbsorbants ou adsorbants pour la chromatographieProcédés pour leur préparation, régénération ou réactivation contenant une substance inorganique contenant des composés des métaux alcalins, des métaux alcalino-terreux ou du magnésium
B01D 53/04 - 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 adsorption, p. ex. chromatographie préparatoire en phase gazeuse avec adsorbants fixes
B01J 20/30 - Procédés de préparation, de régénération ou de réactivation
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
Inventeur(s)
Matsuura Kiyotaka
Ono Sayuri
Abrégé
A Carnot battery (10) comprises: a heat source device (11) that converts electric power into heat so as to generate high-temperature air; a high-temperature heat storage body (12) that is provided downstream of the heat source device (11) and that includes a latent heat storage material which receives the high-temperature air supplied from the heat source device (11) and which stores and releases heat; a steam power plant (13) that is provided downstream of the high-temperature heat storage body (12) and that recovers heat from the high-temperature air supplied from the high-temperature heat storage body (12) and converts the heat into electric power. The high-temperature heat storage body (12) includes a cover member which covers the latent heat storage material, and the latent heat storage material may store and releases heat in a state in which the latent heat storage material is melted inside the cover member.
F28D 20/02 - Appareils ou ensembles fonctionnels d'accumulation de chaleur en généralAppareils échangeurs de chaleur de régénération non couverts par les groupes ou utilisant la chaleur latente
F24H 3/04 - Appareils de chauffage d'air à circulation forcée l'air étant en contact direct avec l'agent chauffant, p. ex. élément chauffant électrique
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
Inventeur(s)
Tsujino Jiro
Hashida Shukichi
Tsuno Masatoshi
Abrégé
An algal reef contains ash powder obtained by burning coal or biomass, and a hardening agent hardened by a chemical reaction while mixed with the ash powder. The hardening agent may include slaked lime and/or gypsum hemihydrate. The algal reef may comprise granules and/or gravel containing calcium carbonate as aggregate. Granules containing calcium carbonate may be produced by reacting calcium hydroxide with carbon dioxide in a carbon dioxide absorption facility. In the algal reef, pellets containing ash powder and hardening agent may be contained in a liquid-permeable bag.
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
Inventeur(s)
Hashida Shukichi
Abrégé
Provided is a carbon dioxide absorbent for absorbing carbon dioxide included in a gas. The carbon dioxide absorbent includes biomass combustion ash that is combustion ash of biomass, and the biomass combustion ash includes calcium oxide. The biomass may include at least one of wood, livestock excrement, sewage sludge, and agricultural residue. The biomass may be excrement from chickens for chicken eggs. The carbon dioxide absorbent may be a slurry including the biomass combustion ash and water. The carbon dioxide absorbent may be granular and include the biomass combustion ash and a binder.
B01J 20/06 - Compositions absorbantes ou adsorbantes solides ou compositions facilitant la filtrationAbsorbants ou adsorbants pour la chromatographieProcédés pour leur préparation, régénération ou réactivation contenant une substance inorganique contenant des oxydes ou des hydroxydes des métaux non prévus dans le groupe
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
F23J 1/00 - Enlèvement des cendres, mâchefers ou scories des chambres de combustion
F23J 15/00 - Aménagement des dispositifs de traitement de fumées ou de vapeurs
[Problem] To provide a method for suppressing greening of potatoes after harvest. [Solution] A method that comprises: a first step for simultaneously irradiating far-red light and light in a wavelength range other than the far-red light range to post-harvest potatoes; and a second step which involves one time period wherein the far-red light alone is irradiated to the potatoes and another time period wherein neither the far-red light nor the light in a wavelength range other than the far-red light range is irradiated thereto.
A23B 7/015 - Conservation par irradiation ou traitement électrique sans effet de chauffage
A01F 25/00 - Emmagasinage des produits agricoles ou horticolesSuspension de fruits récoltés
A23L 3/26 - Conservation des aliments ou produits alimentaires, en général, p.ex. pasteurisation ou stérilisation, spécialement adaptée aux aliments ou produits alimentaires par irradiation sans chauffage
10.
STEAM CURING DEVICE AND DESULFURIZING AGENT PRODUCTION DEVICE
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
JGC CORPORATION (Japon)
Inventeur(s)
Horiuchi, Kiyohiro
Yanagiya, Toru
Sato, Tomoki
Kurosawa, Kazuhiro
Kayukawa, Tomoki
Yamamoto, Motohiro
Kuramoto, Mikiko
Abrégé
[Problem] To seal a steam atmosphere inside a treatment container of a steam curing device via a simple configuration. [Solution] A steam curing device is configured so as to be provided with: a treatment container in which solid matter is steam cured; a steam supply part that supplies steam for curing the solid matter inside the treatment container; a supply passage that opens inside the treatment container and outside of the treatment container, and supplies the solid matter to the inside of the treatment container; and a gas discharge part that discharges gas in a direction intersecting the supply passage, enables the solid matter to pass through the supply passage, and seals a steam atmosphere inside the treatment container.
B01J 20/06 - Compositions absorbantes ou adsorbantes solides ou compositions facilitant la filtrationAbsorbants ou adsorbants pour la chromatographieProcédés pour leur préparation, régénération ou réactivation contenant une substance inorganique contenant des oxydes ou des hydroxydes des métaux non prévus dans le groupe
[Problem] To provide a method for suppressing greening of potatoes after harvest. [Solution] A method that comprises: a first step for simultaneously irradiating far-red light and light in a wavelength range other than the far-red light range to post-harvest potatoes; and a second step which involves one time period wherein the far-red light alone is irradiated to the potatoes and another time period wherein neither the far-red light nor the light in a wavelength range other than the far-red light range is irradiated thereto.
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
JGC CORPORATION (Japon)
JGC CATALYSTS AND CHEMICALS LTD. (Japon)
Inventeur(s)
Ishizuka, Tomohiro
Tsuchiai, Hiroaki
Murayama, Takeshi
Inomata, Makoto
Nakamura, Terumasa
Adachi, Kentaro
Hirata, Junki
Abrégé
[Problem] To provide a feature with which it is possible to perform an operation in which the desulfurization efficiency is stable when forming a moving layer of a desulfurization agent in a desulfurization column, bringing flue gas into contact with the moving layer, and desulfurizing the flue gas. [Solution] A used desulfurization agent, produced after a desulfurization agent that contains slaked lime, an activity source supply material such as lime for supplying silica and alumina, and gypsum is used in a desulfurization process, is used as a gypsum (CaSO4) source for a new desulfurization agent. The hardness of the desulfurization agent is measured. If the hardness is assessed as being equal to or lower than a value set in advance, the amount of the used desulfurization agent is increased by an amount set in advance, and the amount of slaked lime is reduced by an amount corresponding to the increase.
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
THE JAPAN ATOMIC POWER COMPANY (Japon)
NIPPON STEEL & SUMITOMO METAL CORPORATION (Japon)
Inventeur(s)
Maeguchi Takaharu
Hiro Takafumi
Otsuka Shigemitsu
Yokoyama Yutaka
Mimaki Hidehito
Shimizu Shunsuke
Kinomura Shoji
Okada Hirokazu
Kanzaki Manabu
Abrégé
This material for a nuclear power device contains, in percentages by mass, 34 to 38% Cr, 44 to 56% Ni, 0.01 to 0.025% C, over 0% but not more than 0.5% Si, 0.05 to 0.5% Mn, not more than 0.003% S, not more than 0.015% P, not more than 0.05% N, not more than 0.5% Ti, and 0.05 to 0.5% Al. The remainder comprises Fe and unavoidable impurities. This heat transfer tube for a steam generator comprises the material for the nuclear power device. This steam generator is provided with the heat transfer tube for the steam generator. This nuclear power plant is provided with the steam generator.
C22C 19/05 - Alliages à base de nickel ou de cobalt, seuls ou ensemble à base de nickel avec du chrome
C22C 30/00 - Alliages contenant moins de 50% en poids de chaque constituant
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
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
THE JAPAN ATOMIC POWER COMPANY (Japon)
NIPPON STEEL & SUMITOMO METAL CORPORATION (Japon)
Inventeur(s)
Maeguchi Takaharu
Hiro Takafumi
Otsuka Shigemitsu
Yokoyama Yutaka
Mimaki Hidehito
Shimizu Shunsuke
Kinomura Shoji
Okada Hirokazu
Kanzaki Manabu
Abrégé
This material for a nuclear power device contains, in percentages by mass, 24.5 to 26.5% Cr, 22 to 40% Ni, not more than 0.04% C, 0.05 to 0.5% Si, 0.05 to 0.52% Mn, not more than 0.18% N, not more than 0.5% Ti, and 0.045 to 0.5% Al. The remainder comprises Fe and unavoidable impurities. This heat transfer tube for a steam generator comprises the material for the nuclear power device. This steam generator is provided with the heat transfer tube for the steam generator. This nuclear power plant is provided with the steam generator.
C22C 38/00 - Alliages ferreux, p. ex. aciers alliés
C22C 30/00 - Alliages contenant moins de 50% en poids de chaque constituant
C22C 38/50 - Alliages ferreux, p. ex. aciers alliés contenant du chrome et du nickel et du titane ou du zirconium
F16L 11/16 - Manches, c.-à-d. tuyaux flexibles en un matériau rigide, p. ex. en métal ou en matériaux plastiques durs faites d'enroulements de bandes ou de lanières profilées
G21D 1/00 - Détails des installations à énergie nucléaire
C22C 38/52 - Alliages ferreux, p. ex. aciers alliés contenant du chrome et du nickel et du cobalt
15.
SLAG MONITORING DEVICE FOR COAL GASIFIER AND COAL GASIFIER
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
TOHOKU ELECTRIC POWER CO., INC. (Japon)
THE TOKYO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
CHUBU ELECTRIC POWER CO., INC. (Japon)
HOKURIKU ELECTRIC POWER COMPANY (Japon)
THE KANSAI ELECTRIC POWER CO., INC. (Japon)
THE CHUGOKU ELECTRIC POWER CO., INC. (Japon)
SHIKOKU ELECTRIC POWER CO., INC. (Japon)
KYUSHU ELECTRIC POWER CO., INC. (Japon)
ELECTRIC POWER DEVELOPMENT CO., LTD. (Japon)
CENTRAL RESEARCH INSTITUTE OF ELECTRIC POWER INDUSTRY (Japon)
CLEAN COAL POWER R&D CO., LTD. (Japon)
Inventeur(s)
Iida, Masami
Koyama, Yoshinori
Yokohama, Katsuhiko
Suganuma, Naoki
Taguchi, Mutsuaki
Abrégé
Disclosed is a slag monitoring device (100) for a coal gasifier, that is equipped with a slag hole camera (11) that observes a slag hole (3) out of which molten slag flows, a water surface camera (12) that observes the condition of the slag flowing out of the slag hole (3) as the slag falls upon the surface (5H) of cooling water (5), a falling sound sensor (13) that observes the sound of the slag falling upon the water surface (5H), and a processing device (20) that assesses the deposit locations of solidified slag on the basis of the area of the opening of the slag hole (3) observed by the slag hole camera (11) and the slag drop lines and drop locations observed by the water surface camera.
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
TOHOKU ELECTRIC POWER CO., INC. (Japon)
THE TOKYO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
CHUBU ELECTRIC POWER CO., INC. (Japon)
HOKURIKU ELECTRIC POWER COMPANY (Japon)
THE KANSAI ELECTRIC POWER CO., INC. (Japon)
THE CHUGOKU ELECTRIC POWER CO., INC. (Japon)
SHIKOKU ELECTRIC POWER CO., INC. (Japon)
KYUSHU ELECTRIC POWER CO., INC. (Japon)
ELECTRIC POWER DEVELOPMENT CO., LTD. (Japon)
CENTRAL RESEARCH INSTITUTE OF ELECTRIC POWER INDUSTRY (Japon)
CLEAN COAL POWER R&D CO., LTD. (Japon)
Inventeur(s)
Yokohama, Katsuhiko
Honda, Iwao
Suganuma, Naoki
Ando, Hirofumi
Yoshida, Naoshige
Horie, Yoshihiko
Terada, Hitoshi
Kawai, Toru
Kimura, Atsushi
Abrégé
Provided is a ground flare (10) capable of reducing low frequency vibration of a chimney (20) or ground flare tower below a threshold level thereby preventing resonance of surrounding structures. In a ground flare where flammable waste gas is burned by burners (11) disposed under the chimney (20) and the lower portion of the chimney (20) and the burners (11) are surrounded by a wind shield (40), low frequency noise level of the ground flare tower comprising the chimney (20) and the windshield (40) has been reduced by at least one of changing the natural frequency of the tower or increasing the number of the towers or implementing a device for absorbing low frequency vibration into the tower.
F23G 7/08 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets particuliers ou de combustibles pauvres, p. ex. des produits chimiques de gaz d'évacuation ou de gaz nocifs, p. ex. de gaz d'échappement utilisant des torchères, p. ex. dans des cheminées
Hokkaido Electric Power Company, Incorporated (Japon)
Tohoku Electric Power Co., Inc. (Japon)
THE TOKYO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
CHUBU Electric Power Co.,Inc. (Japon)
HOKURIKU ELECTRIC POWER COMPANY (Japon)
THE KANSAI ELECTRIC POWER CO., INC. (Japon)
THE CHUGOKU ELECTRIC POWER CO., INC. (Japon)
SHIKOKU ELECTRIC POWER CO., INC. (Japon)
KYUSHU ELECTRIC POWER CO., INC. (Japon)
ELECTRIC POWER DEVELOPMENT CO., LTD. (Japon)
Central Research Institute of Electric Power Industry (Japon)
Inventeur(s)
Hamasaki, Shinya
Ohtsuka, Toshimi
Koyama, Yoshinori
Yokohama, Katsuhiko
Shibata, Yasunari
Kasai, Jun
Abrégé
By covering the inner circumferential surface of an outer cylinder with a vapor film, thermal conductivity is reduced and the phenomenon of sudden temperature increases in the cylinder wall of the outer cylinder can be prevented, thereby preventing heat damage to the outer cylinder. Additionally, burner burnout, caused by insufficient cooling resulting from irregularities in cooling efficiency at the burner tip, is also prevented. A tip, which is positioned inside a two-stage entrained-flow bed coal gasification furnace, has a double-walled cylindrical structure with an outer cylinder and an inner cylinder, and is configured so that cooling water to cool the tip is supplied via the inside of the inner cylinder and, after cooling the tip, is returned to the base end via the space formed between the outer cylinder and the inner cylinder, and is additionally configured so that the flow path surface area of the space formed between the outer cylinder and the inner cylinder is less than the flow path surface area formed inside the inner cylinder, thus configured so that a swirling flow along guides formed on the outer circumferential surface of the inner cylinder, and a roughly linear flow in the lengthwise direction of the outer cylinder and the inner cylinder, are imparted to the cooling water that is returning to the base end via the space formed between the outer cylinder and the inner cylinder.
HOKKAIDO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
TOHOKU ELECTRIC POWER CO., INC. (Japon)
THE TOKYO ELECTRIC POWER COMPANY, INCORPORATED (Japon)
CHUBU ELECTRIC POWER CO., INC. (Japon)
HOKURIKU ELECTRIC POWER COMPANY (Japon)
THE KANSAI ELECTRIC POWER CO., INC. (Japon)
THE CHUGOKU ELECTRIC POWER CO., INC. (Japon)
SHIKOKU ELECTRIC POWER CO., INC. (Japon)
KYUSHU ELECTRIC POWER CO., INC. (Japon)
ELECTRIC POWER DEVELOPMENT CO., LTD. (Japon)
Inventeur(s)
Ota, Takahiro
Kamo, Kazuhiko
Muroya, Itaru
Asada, Seiji
Wakabayashi, Kazuhiro
Okimura, Koji
Onitsuka, Hironori
Abrégé
Provided are pipeline residual stress improving method and device, which are enabled to improve the residual stress reliably, irrespective of the disposed state and the constituted state of a pipeline, by specifying the management ranges of working conditions. When a cylindrical pipeline (2) is improved in its residual stress by irradiating the outer circumference of the welded portion (C) of the pipeline (2) locally with a laser beam (5a) and by moving an irradiated region (S) circumferentially, therefore, a plurality of thermocouples (9) are disposed at the pipeline (2) to be worked, and the temperature history of the outer face of the pipeline (2) by the irradiation of the laser beam (5a) is managed by measuring the temperature history itself.
C21D 9/08 - Traitement thermique, p. ex. recuit, durcissement, trempe ou revenu, adapté à des objets particuliersFours à cet effet pour corps tubulaires ou tuyaux
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
C21D 1/30 - Recuit d'homogénéisation pour détruire les tensions internes
C21D 9/50 - Traitement thermique, p. ex. recuit, durcissement, trempe ou revenu, adapté à des objets particuliersFours à cet effet pour joints de soudure
Central Research Institute of Electric Power Industry ()
Inventeur(s)
Harada, Masahiro
Susaki, Makoto
Honjo, Shintaro
Kameyama, Shuji
Nakahara, Masaki
Kisei, Akira
Abrégé
A system and a process for removing effectively mercury components contained in a gas in a slight amount which are employed in wet gas refining of a gas produced by gasification of coal or heavy oil or in petroleum refining. Specifically, a mercury removal system for wet gas refining comprising a water washing column for transferring mercury components contained in a subject gas introduced thereto to an absorbent fluid and a flash drum (10) for flashing the absorbent fluid discharged from the water washing column to separate the fluid into a gas component and an effluent, which system is provided with an oxidation means (1) of adding an oxidizing agent to the absorbent fluid in the stage before the flash drum (10) and an effluent treatment means (13) of subjecting the effluent to coagulating sedimentation to discharge the mercury components contained in the effluent as a part of sludge in the stage after the flash drum (10); and a process for the removal of mercury with the system.
C10K 1/10 - Purification des gaz combustibles contenant de l'oxyde de carbone par lavage avec des liquidesRégénération des liqueurs de lavage avec des liquides aqueux
B01D 53/64 - Métaux lourds ou leurs composés, p. ex. mercure
C10K 1/14 - Purification des gaz combustibles contenant de l'oxyde de carbone par lavage avec des liquidesRégénération des liqueurs de lavage avec des liquides aqueux à réaction alcaline organiques
brevets
