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    • 1. 发明专利
    • Air-conditioner for vehicle
    • 车用空调机
    • JP2006281909A
    • 2006-10-19
    • JP2005102413
    • 2005-03-31
    • Honda Motor Co LtdMitsubishi Chemicals Corp三菱化学株式会社本田技研工業株式会社
    • ARISHIRO AKIKOFUKUSHIMA YOSHIMITSUOSHIMA KAZUNORITAKEWAKI TAKAHIKOKAKIUCHI HIROYUKI
    • B60H1/00B01D53/28B01J20/08B01J20/34B60H3/00B60S1/54F24F3/14
    • B60H3/024B60H2003/028
    • PROBLEM TO BE SOLVED: To provide an air-conditioner for a vehicle capable of exerting anti-fogging function to a window glass, and maintaining more suitable moisture environments in a room.
      SOLUTION: This air-conditioner for a vehicle takes inside air or inside air and outside air, blows some of the air toward the inner face of a window glass, and heats the other of the air by a heater core (7) so as to blow it to an occupant side. Some of the air is passed through an adsorption rotor (4) carrying an adsorbent so as to moisture in some of the air. The other of the air is preheated by an adsorbing heater (5) and passed through the adsorption rotor (4), so as to remove the moisture of the adsorption rotor (4). The adsorbent of the adsorption rotor (4) has an adsorption characteristic that the difference between an adsorption volume at the relative moisture content of 25% and an adsorption volume at the relative moisture content of 2% in a moisture adsorption constant temperature line at 25°C is 0.15 g/g or more.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种能够对窗玻璃施加防雾功能的车辆空调,并且在室内保持更合适的水分环境。 解决方案:该车用空调机内部空气或内部空气和外部空气,将一些空气吹向窗玻璃的内表面,并通过加热器芯(7)加热另一个空气, 以便将其吹到乘员身边。 一些空气通过携带吸附剂的吸附转子(4),以便在一些空气中保持湿气。 另一个空气由吸附加热器(5)预热并通过吸附转子(4),以除去吸附转子(4)的水分。 吸附转子(4)的吸附剂具有吸附特性,即在25℃的吸湿恒温线中,相对含水量25%的吸附体积与相对含水量2%的吸附体积之间的差异 C为0.15g / g以上。 版权所有(C)2007,JPO&INPIT
    • 2. 发明专利
    • Air conditioner for vehicle
    • 车用空调
    • JP2006306293A
    • 2006-11-09
    • JP2005132274
    • 2005-04-28
    • Honda Motor Co LtdMitsubishi Chemicals Corp三菱化学株式会社本田技研工業株式会社
    • ARISHIRO AKIKOFUKUSHIMA YOSHIMITSUOSHIMA KAZUNORITAKEWAKI TAKAHIKOKAKIUCHI HIROYUKI
    • B60H3/00B60H1/00B60H3/02
    • B60H3/02B60H3/024B60H2003/028
    • PROBLEM TO BE SOLVED: To provide an air conditioner capable of exhibiting an excellent defogging function for a windowpane and maintaining the cabin at a more comfortable humidity environment. SOLUTION: The air conditioner for the vehicle takes in inside air or the inside air and outside air, blows out a part of the air toward the inner surface of the windowpane, and heats other part of the air with a heater core (7) to blow out to an occupant side. The air conditioner uses an adsorption rotor (4) and the air blown out to the windowpane can be dehumidified and the air blowing out to the occupant side can be humidified. The absorption rotor (4) is composed of a cylindrical adsorption element (4A) which supports an adsorbent and has a heater for desorption. The adsorbent of the adsorption element has an adsorption characteristic of 0.15 g/g or more of the difference between adsorption amount at 25% of relative humidity and the adsorption amount at 2% of relative humidity in a steam adsorption isotherm at 25°C. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种能够对窗玻璃具有优异的除雾功能并将舱室保持在更舒适的湿度环境中的空调。 解决方案:车辆的空调机内部空气或内部空气和外部空气,将一部分空气吹向窗玻璃的内表面,并用加热器芯片加热空气的其他部分( 7)吹到乘员身边。 空调器使用吸附转子(4),吹出到窗玻璃中的空气可以被除湿,并且向乘员侧吹出的空气可以被加湿。 吸收转子(4)由支撑吸附剂的圆柱形吸附元件(4A)组成,并具有用于解吸的加热器。 吸附元件的吸附剂在25℃的蒸汽吸附等温线中的相对湿度25%的吸附量与相对湿度2%的吸附量之间的吸附特性为0.15g / g以上。 版权所有(C)2007,JPO&INPIT
    • 5. 发明专利
    • Power generation method of solid oxide fuel cell
    • 固体氧化物燃料电池的发电方法
    • JP2011171021A
    • 2011-09-01
    • JP2010031858
    • 2010-02-16
    • Mitsubishi Chemicals CorpTokyo Institute Of Technology三菱化学株式会社国立大学法人東京工業大学
    • IHARA MANABUOSHIMA KAZUNORIFUJIMOTO YASUHIROMATSUO TAKESHIKAKIUCHI HIROYUKI
    • H01M8/06C10L5/00H01M8/04H01M8/12
    • Y02E60/525
    • PROBLEM TO BE SOLVED: To provide a solid oxide fuel battery cell capable of continuing a fuel cell reaction without necessity of a process for carrying solid carbon generated by introducing an organic compound for thermal decomposition reaction once on an anode material, in which supply of a fuel is simplified to improve convenience.
      SOLUTION: The solid oxide fuel cell is provided with a fuel battery cell comprising an anode having an anode material containing a composite metal oxide, a cathode having a cathode material, and an electrolyte containing a solid oxide of an ion conductivity arranged between the anode and the cathode, solid carbon used as a fuel at power generation, and at least a fuel chamber housing the solid carbon. The solid carbon in the fuel chamber is reacted with carbon dioxide generated in the power generation to convert into carbon monoxide and the carbon monoxide is oxidized to generate power. The solid carbon is molded solid carbon. There is also provided a methiod for generating power using the fuel cell.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种能够继续燃料电池反应的固体氧化物燃料电池单体,而不需要通过在阳极材料上引入用于热分解反应的有机化合物一次所产生的固体碳的方法,其中 燃料的供应被简化以提高方便性。 解决方案:固体氧化物燃料电池设置有燃料电池单元,该燃料电池单元包括具有负极材料的阳极,阳极材料含有复合金属氧化物,具有阴极材料的阴极和含有离子传导性固体氧化物的电解质, 阳极和阴极,用作发电时的燃料的固体碳,以及至少一个容纳固体碳的燃料室。 燃料室中的固体碳与在发电中产生的二氧化碳反应以转化成一氧化碳,并且一氧化碳被氧化以产生动力。 固体碳是模制的固体碳。 还提供了使用燃料电池发电的方法。 版权所有(C)2011,JPO&INPIT
    • 6. 发明专利
    • Method and apparatus for separating water-containing organic compound
    • 用于分离含水有机化合物的方法和装置
    • JP2011121045A
    • 2011-06-23
    • JP2010189652
    • 2010-08-26
    • Mitsubishi Chemicals Corp三菱化学株式会社
    • SUGITA MIKITAKEWAKI TAKAHIKOOSHIMA KAZUNORIFUJITA NAOKO
    • B01D61/36B01D61/58B01D69/12B01D71/02C01B39/48
    • PROBLEM TO BE SOLVED: To provide a separation method and a separation apparatus employing a membrane separation means comprising a zeolite membrane having durability to a water-containing organic compound of a high water content of at least 20%, a high permeation flux, high selectivity, excellent heat resistance, excellent chemical resistance, and preferably acid resistance. SOLUTION: The separation method of separating water from a water-containing organic compound comprises introducing a water-containing organic compound of a water content of at least 20 mass% into a membrane separation means comprising a zeolite membrane to separate water therefrom, which zeolite membrane includes zeolite of a SiO 2 /Al 2 O 3 molar ratio of 5 or higher and a framework density of not lower than 10 and not higher than 17 comprised of a 6-10 membered oxygen ring structure as its skeleton structure. There is disclosed an apparatus for carrying out the separation method or the like. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种分离方法和分离装置,其使用膜分离装置,其包括对具有至少20%的高含水量的含水有机化合物具有耐久性的沸石膜,高渗透通量 ,高选择性,优异的耐热性,优异的耐化学性,优选耐酸性。 解决方案:从含水有机化合物中分离水的分离方法包括将含水量为至少20质量%的含水有机化合物引入到包含沸石膜的膜分离装置中以从其中分离出水, 该沸石膜包括SiO 2 / SiO 2 / SB 3 O 3 SB 3摩尔比为5或更高的沸石,骨架密度不低于10 并且不高于17,由6-10元氧环结构作为其骨架结构。 公开了一种用于进行分离方法等的装置。 版权所有(C)2011,JPO&INPIT
    • 8. 发明专利
    • Catalyst for cleaning exhaust gas
    • 催化剂用于清洁排气
    • JP2010194437A
    • 2010-09-09
    • JP2009041209
    • 2009-02-24
    • Mitsubishi Chemicals Corp三菱化学株式会社
    • FUJIMOTO YASUHIROOSHIMA KAZUNORIMATSUO TAKESHI
    • B01J23/18B01D53/94F01N3/02F01N3/10
    • PROBLEM TO BE SOLVED: To provide a PM (particulate matter) combustion catalyst capable of demonstrating a sufficiently efficient cleaning performance even in evaluation under a loose contact condition without carrying an expensive platinum group for a Bi-based catalyst, and burning the PM whose main component is soot in exhaust gas discharged from an internal combustion engine at a lower temperature. SOLUTION: The catalyst for cleaning the exhaust gas containing a composite oxide whose main component is Bi and Ce, for which the basic structure of the composite oxide is the tetragonal of Bi 2 O 3 , indicates a high PM cleaning performance even under the loose contact condition for PM combustion, and a catalyst performance is not lowered even when a heating deterioration test is performed further. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:为了提供即使在松散接触条件下进行评估也能够显示出足够有效的清洁性能的PM(颗粒物质)燃烧催化剂,而不携带用于Bi基催化剂的昂贵的铂族基团,并且燃烧 PM,其主要成分是在较低温度下从内燃机排出的废气中的烟灰。 解决方案:用于清洁含有主要成分为Bi和Ce的复合氧化物的废气的催化剂,其复合氧化物的基本结构为Bi 2 S的四方晶系, 3 表示即使在PM燃烧的松动接触条件下也具有高的PM清洗性能,即使进一步进行加热劣化试验,催化剂性能也不降低。 版权所有(C)2010,JPO&INPIT
    • 9. 发明专利
    • Adsorbent module
    • 吸附模块
    • JP2008100144A
    • 2008-05-01
    • JP2006283340
    • 2006-10-18
    • Mitsubishi Chemicals Corp三菱化学株式会社
    • HIDAKA HIDETOKAKIUCHI HIROYUKITAKEWAKI TAKAHIKOOSHIMA KAZUNORI
    • B01D53/26B01D53/28B60H3/00B60H3/02F24F3/14F24F6/10
    • B60H3/024B60H2003/028
    • PROBLEM TO BE SOLVED: To provide an adsorbent module which is applied to a humidity regulator dehumidifying and/or humidifying air in the room, for example, for vehicles, can simplify a device configuration of the humidity regulator, and enables the miniaturization. SOLUTION: The adsorbent module (1) comprises a Peltier device (30) formed in a flat shape, in which each plate surface (3a), (3b) functions respectively as an endothermic part and a heat release part, and a first adsorption element (31) and a second adsorption element (32) formed by supporting the adsorbent on a ventilating element (33), and arranged respectively on each plate surface (3a), (3b) of the Peltier device (30). In each adsorption element (31), (32), the adsorption and the desorption operations are carried out mutually alternatively, and at the same time, the current reverse flowing the Peltier device (30) interchanges the endothermic part and the heat release part of the Peltier device to switch the adsorption operation and the desorption operation in each adsorption element (31), (32). COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了提供一种吸附剂组件,其可以简化湿度调节器的装置配置,并且可以简化湿度调节器的装置结构,该吸附剂组件适用于室内除湿和/或加湿空气的湿度调节器, 。 吸附剂组件(1)包括形成为扁平形状的珀尔帖装置(30),其中每个板表面(3a),(3b)分别用作吸热部分和散热部分,并且 第一吸附元件(31)和通过在通气元件(33)上支撑吸附剂而形成的第二吸附元件(32),并分别布置在珀耳帖装置(30)的每个板表面(3a),(3b)上。 在每个吸附元件(31),(32)中,吸附和解吸操作相互交替进行,同时,珀尔帖装置(30)的电流反向流动将吸热部分和散热部分 珀尔帖装置,用于在每个吸附元件(31),(32)中切换吸附操作和解吸操作。 版权所有(C)2008,JPO&INPIT
    • 10. 发明专利
    • Adsorbing sheet, adsorbing element, method for manufacturing the element and use of them
    • 吸附板,吸附元件,制造元件及其使用的方法
    • JP2007190546A
    • 2007-08-02
    • JP2006341628
    • 2006-12-19
    • Mitsubishi Chemicals Corp三菱化学株式会社
    • OSHIMA KAZUNORITAKEWAKI TAKAHIKOKAKIUCHI HIROYUKIHARADA TAKASHI
    • B01J20/28B01D53/26
    • PROBLEM TO BE SOLVED: To provide an adsorbing sheet which constitutes an adsorbing element of an adsorption unit to be used in an adsorption heat pump or a desiccant system and is excellent in heat-resistant performance and more excellent in adsorption/desorption capacity, to provide the adsorbing element which comprises the adsorbing sheet as a constituent element, is more excellent in heat-resistant performance and adsorption/desorption capacity and is made compact and to provide a method for manufacturing the adsorbing element. SOLUTION: The adsorbing sheet (1) is obtained by depositing an adsorbing material on a base material sheet (12) by using a binder and used for the adsorbing element. The adhesive strength of the adsorbing sheet is ≥0.04 MPa after such a durability test is repeated fifty times that the adsorbing sheet is heated to 120°C, the heated adsorbing sheet is immersed in the water of normal temperature and the immersed adsorbing sheet is cooled to -15°C. The adsorbing element of a plate fin type being one embodiment is provided with: a plurality of adsorbing sheets (1) each of which is formed into a plate-like shape and which are arrayed in parallel and side by side; and one heating medium flow passage penetrating each of adsorbing sheets (1). COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种吸附板,其构成吸附单元的吸附元件,用于吸附热泵或干燥剂系统,并且耐热性能优异,吸附/解吸能力更好 为了提供包含作为构成元素的吸附片的吸附元件,耐热性能和吸附/解吸能力更优异,并且制造紧凑并提供吸附元件的制造方法。 解决方案:吸附片(1)通过使用粘合剂将吸附材料沉积在基材片(12)上并用于吸附元件而获得。 在将耐热性试验重复吸附片材加热至120℃的五十倍后,吸附片材的粘合强度≥0.04MPa,将加热后的吸附片材浸渍在常温水中,将浸渍的吸附片材冷却 至-15℃。 作为一个实施方式的板翅式吸附元件设置有:多个吸附片(1),每个吸附片形成为平板状并排排列成板状, 和一个穿过每个吸附片(1)的加热介质流动通道。 版权所有(C)2007,JPO&INPIT