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    • 3. 发明专利
    • Apparatus for treating gas
    • 用于处理气体的装置
    • JP2010201373A
    • 2010-09-16
    • JP2009050892
    • 2009-03-04
    • Chubu Electric Power Co IncToyobo Co Ltd中部電力株式会社東洋紡績株式会社
    • TANAHASHI NAOTAKAIWASA NORIOWATANABE SUMIOSUGIURA TSUTOMUASANO MANABUSAKAGUCHI SHUNKAWADA KAZUYUKI
    • B01D53/86B01J20/08B01J20/10B01J20/12B01J20/18
    • Y02A50/235
    • PROBLEM TO BE SOLVED: To provide an apparatus for treating gas at a reduced cost employing a decomposition catalyst of an extended life. SOLUTION: The apparatus 10 for treating gas is constructed in such a manner that a first state wherein a gas having passed through a heat storage material 32 continuously flows into a reaction chamber 34 and a second state wherein a gas having passed through the reaction chamber 34 continuously flows into the heat storage material 32 alternately arise, and that the heat storage material 32 is heated in the second state and the gas flowing into the reaction chamber 34 is heated by the heat storage material 32 in the first state. The heat storage material 32 includes a toxicity reducing substance 36 of reducing the toxicity to the decomposition catalyst, of a catalyst poison by chemically changing the same that is contained in the gas and poisons the decomposition catalyst, which toxicity reducing substance 36 also functions as the heat storage material 32. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种使用延长使用寿命的分解催化剂以降低的成本处理气体的装置。 解决方案:用于处理气体的装置10以这样一种方式构成,其中通过蓄热材料32的气体连续流入反应室34的第一状态和第二状态,其中通过 反应室34连续地流入蓄热材料32,并且在第二状态下加热蓄热材料32,并且在第一状态下通过蓄热材料32加热流入反应室34的气体。 蓄热材料32包括通过化学改变气体中所含的催化剂毒物并降解对分解催化剂的毒性的毒性降低物质36,并且毒性降低物质36也起作用 储热材料32.版权所有(C)2010,JPO&INPIT
    • 4. 发明专利
    • Apparatus for treating gas
    • 用于处理气体的装置
    • JP2010201372A
    • 2010-09-16
    • JP2009050850
    • 2009-03-04
    • Chubu Electric Power Co IncToyobo Co Ltd中部電力株式会社東洋紡績株式会社
    • TANAHASHI NAOTAKAIWASA NORIOWATANABE SUMIOSUGIURA TSUTOMUASANO MANABUSAKAGUCHI SHUNKAWADA KAZUYUKI
    • B01D53/86B01J23/44
    • Y02A50/235
    • PROBLEM TO BE SOLVED: To provide an apparatus for treating gas at a reduced cost, employing a decomposition catalyst of an extended life. SOLUTION: The apparatus 10 for treating gas is constructed in such a manner that a first state wherein a gas having passed through a heat storage material 32 continuously flows into a reaction chamber 34 and a second state wherein a gas having passed through the reaction chamber 34 continuously flows into the heat storage material 32 alternately arise, and that the heat storage material 32 is heated in the second state and the gas flowing into the reaction chamber 34 is heated by the heat storage material 32 in the first state. The temperature of the heat storage material 32 is kept lower upstream of the gas flowing into the reaction chamber 34 than the boiling point of a catalyst poison that is contained in the gas and poisons the decomposition catalyst. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种降低成本的处理气体的装置,使用延长使用寿命的分解催化剂。 解决方案:用于处理气体的装置10以这样一种方式构成,其中通过蓄热材料32的气体连续流入反应室34的第一状态和第二状态,其中通过 反应室34连续地流入蓄热材料32,并且在第二状态下加热蓄热材料32,并且在第一状态下通过蓄热材料32加热流入反应室34的气体。 储存材料32的温度比流入反应室34的气体的上游保持低于包含在气体中的催化剂毒物的沸点,并且毒化分解催化剂。 版权所有(C)2010,JPO&INPIT
    • 5. 发明专利
    • Treatment device of volatile organic compound
    • 挥发性有机化合物的处理装置
    • JP2009063210A
    • 2009-03-26
    • JP2007230653
    • 2007-09-05
    • Chubu Electric Power Co IncToyobo Co Ltd中部電力株式会社東洋紡績株式会社
    • TANAHASHI NAOTAKAINAGAKI HIDEKIWATANABE SUMIOSUGIURA TSUTOMUASANO MANABUKAWADA KAZUYUKI
    • F23G7/06F23G7/07
    • Y02E20/348
    • PROBLEM TO BE SOLVED: To provide a light-weight and compact treatment device of a volatile organic compound capable of keeping a high decontamination rate to an exhaust gas including an organic silicon compound for a long time.
      SOLUTION: An inner pipe 2, and an outer pipe 3 closed at both end faces are coaxially disposed with a clearance portion as a gas raising and lowering passage, the clearance portion and the inside of the inner pipe are communicated at one end of both pipes, and end faces of the inner pipe 2 and the outer pipe 3 are sealed at the other end. Two or more reaction chambers partitioned by vertical partitions 9 are defined in the inner pipe 2 excluding the gas communication passage, heat storage material layers 5, 7 and catalyst layers 6, 8 are hierarchically formed in each of the reaction chambers, a heater 10 for heating and reacting the volatile organic compound is disposed in the gas communication passage, the outer pipe 3 is provided with a pair of exhaust gas inlet/outlet openings 11, 12, and the clearance portion is divided into a first gas passage 13 for guiding the exhaust gas introduced from the gas inlet/outlet opening portions to the reaction chambers, and a second gas passage 14 for guiding the decontaminated exhaust gas distributed from the reaction chambers to the gas inlet/outlet opening portion.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 解决方案:提供一种能够长时间保持包括有机硅化合物的排气的高去污率的挥发性有机化合物的重量轻且紧凑的处理装置。 解决方案:在两个端面处封闭的内管2和外管3同轴地设置有间隙部分作为气体升降通道,内管的间隙部分和内部在一端连通 的两个管道,内管2和外管3的端面在另一端被密封。 在不同于气体连通路的内管2中限定由两个或多个由垂直隔板9隔开的反应室,在每个反应室中分层形成有储热材料层5,7和催化剂层6,8,用于 加热和反应挥发性有机化合物设置在气体连通通道中,外管3设有一对排气入口/出口11,12,间隙部分被分成第一气体通道13,用于引导 从气体入口/出口开口部分向反应室引入的废气,以及用于将从反应室分配的去污废气引导到气体入口/出口开口部分的第二气体通道14。 版权所有(C)2009,JPO&INPIT
    • 7. 发明专利
    • High pressure side pressure control method in supercritical vapor compression circuit and circuit device
    • 超压蒸汽压缩电路和电路装置中的高压侧压力控制方法
    • JP2003322421A
    • 2003-11-14
    • JP2002130513
    • 2002-05-02
    • Chubu Electric Power Co IncMayekawa Mfg Co Ltd中部電力株式会社株式会社前川製作所
    • WATANABE SUMIOMURASE YUJIFUJIMA KATSUMIYOSHIKAWA TOMOIKUYONEDA HIROKAZU
    • F25B1/00F25B1/047F25B9/00F25B43/02
    • F25B9/008F25B31/002F25B2309/061F25B2600/02F25B2600/17
    • PROBLEM TO BE SOLVED: To provide an inexpensive circuit device and a control method for controlling high pressure side pressure in a supercritical vapor compression circuit using an oil feeding type screw compressor. SOLUTION: This supercritical vapor compression circuit device is composed of the oil feeding type screw compressor, an oil separator, a gas cooler, an expansion valve, a closed circuit including an evaporator, and a circuit for resupplying oil supplied to the compressor, included in delivery gas, and separated by the oil separator to the compressor, and is provided with at least one of an adjusting means for adjusting at least one of a flow rate or a temperature of the supply oil or an adjusting means for adjusting an oil quantity in the oil separator by supplying the oil from an external part in the oil separator or taking out the oil to the external part in the circuit for supplying the oil to the compressor, and is provided with a control means for controlling these adjusting means so that COP becomes optimal. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:提供一种廉价的电路装置和用于使用供油型螺杆式压缩机控制超临界蒸汽压缩回路中的高压侧压力的控制方法。 解决方案:该超临界蒸汽压缩回路装置由供油型螺杆式压缩机,油分离器,气体冷却器,膨胀阀,包括蒸发器的闭合回路,以及供给压缩机的供给油供给回路 包括在输送气体中并由油分离器分离到压缩机中,并且设置有用于调节供给油的流量或温度中的至少一个的调节装置或调节装置的调节装置中的至少一个 通过从油分离器中的外部部分供给油或者将油抽出到用于向压缩机供给油的回路中的外部的油分离器中的油量,并且设置有控制装置,用于控制这些调节装置 使COP成为最佳。 版权所有(C)2004,JPO
    • 9. 发明专利
    • Operation control device of air conditioner, and operation control method of air conditioner
    • 空调操作控制装置及空调操作控制方法
    • JP2010096432A
    • 2010-04-30
    • JP2008267763
    • 2008-10-16
    • Chubu Electric Power Co Inc中部電力株式会社
    • NAKAYAMA HIROSHIWATANABE SUMIOSAKURABA ICHIROMIYAOKA YOICHIHIROTA MASASHIOHASHI EIICHIRO
    • F24F11/02
    • PROBLEM TO BE SOLVED: To provide a device and a method for controlling operation of air conditioners capable of preventing an intermittent operation state of the air conditioners from continuing and capable of preventing a power consumption amount of the air conditioners from increasing. SOLUTION: This air conditioner operation control device 30 for controlling air-conditioning operation of a plurality of the air conditioners which air-condition a predetermined space 2 includes: an air-conditioning load calculation part 31A for calculating air-conditioning load in the predetermined space based on consumed electric currents of outdoor units 20A-20F connected to indoor units 10A-10L installed in the predetermined space for composing a plurality of the air conditioners and outside air temperature outside the predetermined space; an air conditioner selecting part 31A for selecting an air conditioner controllable to be in an air-conditioning operation state among a plurality of the air conditioners according to the air-conditioning load calculated by the air-conditioning load calculation part; and an air conditioner operation state adjustment part 31A for adjusting the air conditioner selected by the air conditioner selecting part to perform air-conditioning operation within a range of target load ratio in which the air conditioner can be maintained in a continuous operation state. COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题:提供一种能够防止空调的间歇运行状态持续并能够防止空调的电力消耗量增加的空调的运行控制的装置和方法。 解决方案:用于控制空调预定空间2的多个空调的空调操作的空调操作控制装置30包括:用于计算空调负荷的空调负荷计算部31A 基于连接到安装在用于组合多个空调的预定空间中的室内单元10A-10L的外部单元20A-20F的消耗电流和在预定空间外部的外部空气温度的预定空间; 空调选择部31A,其根据由空调负荷计算部计算出的空调负荷,选择多个空调机中可控制为空调运转状态的空调机; 以及空调器运转状态调整部31A,其用于调节由空调选择部选择的空调,以在空调机能够保持连续运转状态的目标负荷比范围内进行空调运转。 版权所有(C)2010,JPO&INPIT
    • 10. 发明专利
    • Test environment adjusting device of central air conditioner
    • 中央空调的测试环境调节装置
    • JP2009156487A
    • 2009-07-16
    • JP2007332606
    • 2007-12-25
    • Chubu Electric Power Co Inc中部電力株式会社
    • WATANABE SUMIOSAKURABA ICHIRONAGAMATSU KATSUAKIKANEDA AKIHIROTOKUDA TADAHIKO
    • F24F11/02F24F5/00
    • PROBLEM TO BE SOLVED: To provide a test environment adjusting device of a central air conditioner, reducing consumption energy required for forming a test environment and stabilizing the test environment. SOLUTION: A first circulating circuit 25A is removably connected to the central air conditioner 10 as a test object, and configured to circulate circulating water used for cooling and heating operation of the air conditioner 10 as a test object to the primary side of a plate type heat exchanger 26. A second circulating circuit 25B is configured to circulate antifreeze liquid for performing heat exchange with the circulating water by the secondary side of the heat exchanger 26 and the first to fourth air heat exchangers 21-24. From the air heat exchangers 21-24, cold and warm air for canceling exhaust heat generated in cooling and heating operation of the air conditioner 10 as a test object is generated based on the ambient air and the antifreeze liquid, and discharged to the interior of a laboratory 12. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供中央空调的测试环境调节装置,减少形成测试环境所需的能量消耗和稳定测试环境。 解决方案:第一循环回路25A作为测试对象可拆卸地连接到中央空调10,并且被配置为将用于冷却和加热操作的循环水循环到作为测试对象的空调10的一侧 板式热交换器26.第二循环回路25B构成为使热交换器26和第一〜第四空气热交换器21-24的二次侧与循环水进行热交换的防冻液循环。 根据空气热交换器21-24,基于环境空气和防冻液产生用于消除作为被检体的空调装置10的制冷运转时产生的排气热的冷暖空气,并排出到内部 实验室12.版权所有(C)2009,JPO&INPIT