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    • 1. 发明专利
    • Heat exchanger cleaning device and cleaning method of heat exchanger
    • 换热器清洗装置及换热器清洗方法
    • JP2008008538A
    • 2008-01-17
    • JP2006177994
    • 2006-06-28
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • YOSHIDA YOSHIHIKOWATABE MASAHARUSHIBUYA SEIJI
    • F28G9/00F28G15/04
    • PROBLEM TO BE SOLVED: To provide a heat exchanger cleaning device and a cleaning method of a heat exchanger, which easily clean a plate-type heat exchanger.
      SOLUTION: The heat exchanger cleaning device 1 for cleaning the plate-type heat exchanger 3 constituted by stacking plates 15, so as to allow the liquid to flow inside, is provided with: a pump 3 for supplying cleaning liquid to the plate-type heat exchanger 3; a gas supply portion 7 for mixing a gas in the cleaning liquid supplied to the plate-type heat exchanger 3; and inflow piping 17 for allowing the cleaning liquid to flow into the plate-type heat exchanger 3. The inflow piping 17 is disposed in such a state that its central axis is intersected with the stacking direction of the plates 15.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种容易清洁板式热交换器的热交换器清洗装置和热交换器的清洗方法。 解决方案:用于清洗由层叠板15构成的板式热交换器3以允许液体在内部流动的热交换器清洁装置1设置有:用于向板供应清洗液的泵3 型热交换器3; 用于将供给到板式热交换器3的清洗液中的气体混合的气体供给部7; 以及用于允许清洁液体流入板式热交换器3的流入管道17.流入管道17以其中心轴线与板15的堆叠方向相交的状态设置。版权所有: (C)2008,JPO&INPIT
    • 5. 发明专利
    • Turbo refrigerator control device, turbo refrigerator control method, gas turbine plant, and reconstruction method of existing gas turbine plant
    • 涡轮制冷机控制装置,涡轮制冷机控制方法,气体涡轮机和现有气体涡轮机的重建方法
    • JP2011033328A
    • 2011-02-17
    • JP2010060953
    • 2010-03-17
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • UECHI HIDEYUKIKOMURO TAKANOBUSHIBUYA SEIJISONODA TAKASHIITO EISAKUKAWAGUCHI NATSUKITERASAKI MASAOKOGA ATSUSHI
    • F24F11/02F02C7/143
    • PROBLEM TO BE SOLVED: To provide a turbo refrigerator control device capable of efficiently driving a plurality of turbo refrigerators by the minimum power, a turbo refrigerator control method, and a gas turbine plant.
      SOLUTION: The turbo refrigerator control device 7 for controlling a plurality of the turbo refrigerators 5 comprises an enthalpy difference calculation means 13 for calculating enthalpy difference ΔH between the present temperature of object gas and cooling target temperature based on temperature/humidity information of the obtained object gas and the set cooling target temperature, an operating-number decision means 15 for calculating the number N of operating turbo refrigerators 5 necessary for making the temperature of the object gas to the cooling target temperature by dividing the enthalpy difference ΔH by rated cooling capacity of the turbo refrigerator 5, and a driving instruction means 16 for calculating necessary refrigerating capacity Ri assigned to each of a plurality of turbo refrigerators 5 from the calculated enthalpy difference ΔH and the operation number N.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 解决的问题:提供能够通过最小功率有效地驱动多个涡轮冰箱的涡轮冷冻机控制装置,涡轮冰箱控制方法和燃气轮机装置。 解决方案:用于控制多个涡轮制冷机5的涡轮冰箱控制装置7包括焓差计算装置13,用于根据目标气体的当前温度和冷却目标温度之间的焓差ΔH,基于温度/湿度信息 所获得的目标气体和设定的冷却目标温度,运算数决定装置15,用于计算通过将焓差ΔH除以额定值来使目标气体的温度达到冷却目标温度所需的操作涡轮制冷机5的数量N 涡轮制冷机5的冷却能力以及从计算出的焓差ΔH和运转数N计算分配给多个涡轮制冷机5中的各个的必要制冷能力的驾驶指示单元16.(C) 2011年,JPO&INPIT
    • 6. 发明专利
    • Method for controlling ice storage tank
    • 控制储冰罐的方法
    • JP2003021367A
    • 2003-01-24
    • JP2001203541
    • 2001-07-04
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • SHIBUYA SEIJINAKAZAWA KUNIYASUAZEBIRU KIYOUICHIRO
    • F24F5/00F25C5/18
    • PROBLEM TO BE SOLVED: To provide a method for controlling an ice storage tank capable of extracting water or brine at a temperature not higher than a specified temperature for a required time even if the working temperature is low.
      SOLUTION: The method for controlling the ice storage tank cools a heat medium by ice produced by freezing water in the ice storage tank and making ice grow. The method comprises the steps of receiving in the tank the heating medium for cooling cooled by a refrigeration machine and freezing water by the heating medium to make the ice grow; receiving a heated secondary side heating medium (water or brine) from an inlet of the tank; cooling the secondary heat medium by melting the ice which has grown and supplying the secondary side heat medium to the outside through an outlet of the tank and; interrupting cooling of the secondary side heat medium to make ice remain in the tank at an specified ice packing factor when the condition is satisfied that the ice packing factor(IPF) in the tank reaches a specified value during cooling of the secondary side heat medium.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供一种控制能够在不高于指定温度的温度下提取水或盐水所需时间的冰储存罐的方法,即使工作温度低。 解决方案:控制储冰罐的方法是通过在储冰罐中冷冻水而产生的冰来冷却热介质并使冰增长。 所述方法包括以下步骤:在所述槽中接收由制冷机冷却的冷却用加热介质,并且通过所述加热介质冷冻水以使所述冰生长; 从罐的入口接收加热的次级侧加热介质(水或盐水); 通过熔化已经生长的冰并通过罐的出口将次级侧热介质供应到外部来冷却二次热介质; 当二次侧热介质的冷却期间满足罐内的冰封装系数(IPF)达到规定值时,以特定的冰封装系数,中断二次侧热介质的冷却,使冰保持在罐内。
    • 7. 发明专利
    • Ice heat accumulator
    • 冰箱蓄热器
    • JP2003021365A
    • 2003-01-24
    • JP2001203542
    • 2001-07-04
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • SHIBUYA SEIJINAKAZAWA KUNIYASUWADA MAKOTOTAITOU KAZUMA
    • F24F5/00F24F11/02F25B1/00
    • PROBLEM TO BE SOLVED: To provide an ice heat accumulator which enhances reliability of control and which reduces cost.
      SOLUTION: The ice heat accumulator 1 of is connected to a freezing machine 2 which evaporates and vaporizes refrigerant with an evaporator 8 to cool brine, an ice heat storage tank 14, brine circulating paths 8a, 16, 18, and 20 where the brine circulates between the evaporator of the freezing machine and the ice heat storage tank, a heat exchanger 22 for cooling which supplies cooling water to an air conditioner 24, and brine circulating paths. This device is equipped with brine connecting paths 22b, 30, and 32 which are arranged so that the brine flows between all or part of these brine circulating paths and the heat exchanger and a flow path switching means 34 and 40 which are arranged so that the ice heat storage tank 14 or the heat exchanger 22 for cooling are connected so as to be changeable selectively for the freezing machine and so that the freezing machine 2, the heat exchanger 22 for cooling and the ice heat storage tank 14 are connected in series.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供一种提高控制可靠性并降低成本的冰蓄热器。 解决方案:冰蓄热器1连接到冷冻机2,冷冻机2用蒸发器8蒸发并蒸发制冷剂,以冷却盐水,冰储存罐14,盐水循环路径8a,16,18和20,其中盐水循环 在冷冻机的蒸发器和冰蓄热箱之间,将用于向空调24供应冷却水的冷却用热交换器22和盐水循环路径。 该装置配备有盐水连接路径22b,30和32,其被布置成使得盐水在这些盐水循环路径的全部或部分之间流动,并且热交换器和流路切换装置34和40被布置成使得 冰蓄热箱14或用于冷却的热交换器22被连接成可以选择性地冷冻机,并且冷冻机2,冷却用热交换器22和冰蓄热箱14串联连接。
    • 10. 发明专利
    • ICE THERMAL STORAGE DEVICE
    • JP2003194387A
    • 2003-07-09
    • JP2001392960
    • 2001-12-26
    • MITSUBISHI HEAVY IND LTD
    • SHIBUYA SEIJITOYOFUKU MASAYOSHIOGATA JUNJIKABUNE HIROO
    • F24F5/00F24F11/02
    • PROBLEM TO BE SOLVED: To provide an ice thermal storage device eliminating a flow regulating valve, reducing pressure loss and power, and enhancing responsiveness. SOLUTION: When a brine pump 3c is operated in a state where a refrigerator is stopped, brine flowing within a thermal storage coil 2a is cooled to 0°C with ice on the outer circumferential surface of the thermal storage coil 2a, the cooled brine reaches brine supply piping 3a, and a heat exchanger tube 4a of a heat exchanger 4. The cooled brine inside the heat exchanger tube 4a conducts heat exchange with temperature raised cooling water inside the heat exchanger tube 4a, and thereby, the temperature of the brine is raised and cooling water is cooled. The temperature of the cooling water flowing through cooling water supply piping 5a is detected with a temperature sensor 5d, and based on the detected results with the temperature sensor 5d, a control device 7 inverter-controls an air pump 2c. As a result, the amount of air supplied with the air pump 2c is varied, and the bubbling amount for bubbling water inside an ice thermal storage bath 2 is adjusted to control capacity. COPYRIGHT: (C)2003,JPO