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1.发明授权公开(公告)号:US07296429B2
公开(公告)日:2007-11-20
申请号:US10808625
申请日:2004-03-24
申请人: Yuji Tanaka , Yukihiro Fujita , Eiji Koyama , Kouich Satou
发明人: Yuji Tanaka , Yukihiro Fujita , Eiji Koyama , Kouich Satou
摘要: There is provided an energy recovery apparatus capable of recovering a hydraulic energy in a regenerative air-conditioning system including a pressure sustaining valve and capable of coping with a discharge change caused by variation in air-conditioning load, the air-conditioning system being capable of carrying out normal operation even in a case where the energy recovery apparatus fails. The energy recovery apparatus is configured so as to feed water from a water tank to air-conditioning loads such as a heat source or a fan coil at a higher place through a feed pipe line by a pump and to lead the water passed through the air-conditioning loads into the water tank via a return pipe line including the pressure sustaining valve, a branch pipe line is disposed so as to branch into the water tank from the return pipe line in upstream of the pressure sustaining valve, and the energy recovery apparatus is connected in to the branch pipe line.
摘要翻译: 提供一种能够回收包括压力维持阀的再生空调系统中的液压能量并能够应对由空调负荷变化引起的排出变化的能量回收装置,该空调系统能够 即使在能量回收装置发生故障的情况下也进行正常动作。 能量回收装置被配置为通过泵将来自水箱的水通过供给管线从水供给到较高处的诸如热源或风扇盘管的空调负载,并引导通过空气的水 通过包括压力维持阀的返回管路将负载转移到水箱中,分支管线设置成从压力维持阀上游的回流管路分支到水箱中,能量回收装置 连接到分支管路。
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2.发明授权公开(公告)号:US07818973B2
公开(公告)日:2010-10-26
申请号:US11900477
申请日:2007-09-11
申请人: Yuji Tanaka , Yukihiro Fujita , Eiji Koyama , Kouich Satou
发明人: Yuji Tanaka , Yukihiro Fujita , Eiji Koyama , Kouich Satou
摘要: There is provided an energy recovery apparatus capable of recovering a hydraulic energy in a regenerative air-conditioning system including a pressure sustaining valve and capable of coping with a discharge change caused by variation in air-conditioning load, the air-conditioning system being capable of carrying out normal operation even in a case where the energy recovery apparatus fails. The energy recovery apparatus is configured so as to feed water from a water tank to air-conditioning loads such as a heat source or a fan coil at a higher place through a feed pipe line by a pump and to lead the water passed through the air-conditioning loads into the water tank via a return pipe line including the pressure sustaining valve, a branch pipe line is disposed so as to branch into the water tank from the return pipe line in upstream of the pressure sustaining valve, and the energy recovery apparatus is connected in to the branch pipe line.
摘要翻译: 提供一种能够回收包括压力维持阀的再生空调系统中的液压能量并能够应对由空调负荷变化引起的排出变化的能量回收装置,该空调系统能够 即使在能量回收装置发生故障的情况下也进行正常动作。 能量回收装置被配置为通过泵将来自水箱的水通过供给管线从水供给到较高处的诸如热源或风扇盘管的空调负载,并引导通过空气的水 通过包括压力维持阀的返回管路将负载转移到水箱中,分支管线设置成从压力维持阀上游的回流管路分支到水箱中,能量回收装置 连接到分支管路。
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3.发明申请公开(公告)号:US20080022699A1
公开(公告)日:2008-01-31
申请号:US11900477
申请日:2007-09-11
申请人: Yuji Tanaka , Yukihiro Fujita , Eiji Koyama , Kouich Satou
发明人: Yuji Tanaka , Yukihiro Fujita , Eiji Koyama , Kouich Satou
IPC分类号: F25D31/00
摘要: There is provided an energy recovery apparatus capable of recovering a hydraulic energy in a regenerative air-conditioning system including a pressure sustaining valve and capable of coping with a discharge change caused by variation in air-conditioning load, the air-conditioning system being capable of carrying out normal operation even in a case where the energy recovery apparatus fails. The energy recovery apparatus is configured so as to feed water from a water tank to air-conditioning loads such as a heat source or a fan coil at a higher place through a feed pipe line by a pump and to lead the water passed through the air-conditioning loads into the water tank via a return pipe line including the pressure sustaining valve, a branch pipe line is disposed so as to branch into the water tank from the return pipe line in upstream of the pressure sustaining valve, and the energy recovery apparatus is connected in to the branch pipe line.
摘要翻译: 提供一种能够回收包括压力维持阀的再生空调系统中的液压能量并能够应对由空调负荷变化引起的排放变化的能量回收装置,该空调系统能够 即使在能量回收装置发生故障的情况下也进行正常动作。 能量回收装置被配置为通过泵将来自水箱的水通过供给管线从水供给到较高处的诸如热源或风扇盘管的空调负载,并引导通过空气的水 通过包括压力维持阀的返回管路将负载转移到水箱中,分支管线设置成从压力维持阀上游的回流管路分支到水箱中,能量回收装置 连接到分支管路。
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公开(公告)号:US07174735B2
公开(公告)日:2007-02-13
申请号:US10764374
申请日:2004-01-22
申请人: Kouichi Satoh , Seiji Yanagisawa , Shu Watabe , Yukihiro Fujita , Akio Shima , Yuji Tanaka , Shinichi Takahashi , Hiroshi Kunii
发明人: Kouichi Satoh , Seiji Yanagisawa , Shu Watabe , Yukihiro Fujita , Akio Shima , Yuji Tanaka , Shinichi Takahashi , Hiroshi Kunii
CPC分类号: F24F5/0017 , Y02E10/22 , Y02E10/28 , Y02E60/147 , Y02E60/17 , Y02P70/525
摘要: In the air-conditioning system, a primary side to generate heat includes a heat storage and a heat source and produces cool or warm water using an inexpensive commercial power source such as a nighttime power source. A system collaboration unit is disposed between a motor to drive a water pump and a power source. The unit is connected to the motor via a cable. An output from the inverter is connected to the motor via a cable.
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5.发明授权公开(公告)号:US07081688B2
公开(公告)日:2006-07-25
申请号:US11334576
申请日:2006-01-17
申请人: Kouichi Satou , Seiji Yanagisawa , Yuji Tanaka , Shinichi Takahashi , Yukihiro Fujita , Osamu Matsumoto , Toshihiko Yamamoto , Masahiro Sano
发明人: Kouichi Satou , Seiji Yanagisawa , Yuji Tanaka , Shinichi Takahashi , Yukihiro Fujita , Osamu Matsumoto , Toshihiko Yamamoto , Masahiro Sano
IPC分类号: F24D11/02
CPC分类号: F24F5/0007 , F24F5/0017 , Y02E10/22 , Y02E10/223 , Y02E10/226 , Y02E60/147
摘要: A system is provided to recover unutilized energy as electric power in hydraulic turbine power generation. The system includes a heat storage tank, a pump for pumping water from the heat storage tank and to air conditioning loads, a first water feed pipe connected between an outlet of the storage pump and the air conditioning loads, and a second water feed pipe for returning the water discharged from the air-conditioning loads. A hydraulic turbine driven generator is provided on a lower portion of the second water feed pipe at such a position as to recover the potential energy of the water discharged from the air conditioning loads.
摘要翻译: 提供一种用于在水轮机发电中恢复作为电力的未利用能量的系统。 该系统包括储热罐,用于从储热罐抽取水和空调负荷的泵,连接在储存泵的出口和空调负载之间的第一供水管和用于 返回从空调负载排出的水。 在第二供水管的下部设置有水轮机驱动发电机,以便恢复从空调负载排出的水的潜在能量。
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6.发明申请公开(公告)号:US20060113797A1
公开(公告)日:2006-06-01
申请号:US11334576
申请日:2006-01-17
申请人: Kouichi Satou , Seiji Yanagisawa , Yuji Tanaka , Shinichi Takahashi , Yukihiro Fujita , Osamu Matsumoto , Toshihiko Yamamoto , Masahiro Sano
发明人: Kouichi Satou , Seiji Yanagisawa , Yuji Tanaka , Shinichi Takahashi , Yukihiro Fujita , Osamu Matsumoto , Toshihiko Yamamoto , Masahiro Sano
IPC分类号: F01K15/00
CPC分类号: F24F5/0007 , F24F5/0017 , Y02E10/22 , Y02E10/223 , Y02E10/226 , Y02E60/147
摘要: A system is provided to recover unutilized energy as electric power in hydraulic turbine power generation. The system includes a heat storage tank, a pump for pumping water from the heat storage tank and to air conditioning loads, a first water feed pipe connected between an outlet of the storage pump and the air conditioning loads, and a second water feed pipe for returning the water discharged from the air-conditioning loads. A hydraulic turbine driven generator is provided on a lower portion of the second water feed pipe at such a position as to recover the potential energy of the water discharged from the air conditioning loads.
摘要翻译: 提供一种用于在水轮机发电中恢复作为电力的未利用能量的系统。 该系统包括储热罐,用于从储热罐抽取水和空调负荷的泵,连接在储存泵的出口和空调负载之间的第一供水管和用于 返回从空调负载排出的水。 在第二供水管的下部设置有水轮机驱动发电机,以便恢复从空调负载排出的水的潜在能量。
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公开(公告)号:US07019411B2
公开(公告)日:2006-03-28
申请号:US10383905
申请日:2003-03-07
申请人: Kouichi Satou , Seiji Yanagisawa , Yuji Tanaka , Shinichi Takahashi , Yukihiro Fujita , Osamu Matsumoto , Toshihiko Yamamoto , Masahiro Sano
发明人: Kouichi Satou , Seiji Yanagisawa , Yuji Tanaka , Shinichi Takahashi , Yukihiro Fujita , Osamu Matsumoto , Toshihiko Yamamoto , Masahiro Sano
IPC分类号: F24F5/00
CPC分类号: F24F5/0007 , F24F5/0017 , Y02E10/22 , Y02E10/223 , Y02E10/226 , Y02E60/147
摘要: A system is provided to recover unutilized energy as electric power in hydraulic turbine power generation. The system includes a heat storage tank, a pump for pumping water from the heat storage tank and to air conditioning loads, a first water feed pipe connected between an outlet of the storage pump and the air conditioning loads, and a second water feed pipe for returning the water discharged from the air-conditioning loads. A hydraulic turbine driven generator is provided on a lower portion of the second water feed pipe at such a position as to recover the potential energy of the water discharged from the air conditioning loads.
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公开(公告)号:US06698223B2
公开(公告)日:2004-03-02
申请号:US10233258
申请日:2002-08-30
申请人: Kouichi Satoh , Seiji Yanagisawa , Shu Watabe , Yukihiro Fujita , Akio Shima , Yuji Tanaka , Shinichi Takahashi , Hiroshi Kunii
发明人: Kouichi Satoh , Seiji Yanagisawa , Shu Watabe , Yukihiro Fujita , Akio Shima , Yuji Tanaka , Shinichi Takahashi , Hiroshi Kunii
IPC分类号: F25B2700
CPC分类号: F24F5/0017 , Y02E10/22 , Y02E10/28 , Y02E60/147 , Y02E60/17 , Y02P70/525
摘要: In the air-conditioning system, a primary side to generate heat includes a heat storage and a heat source and produces cool or warm water using an inexpensive commercial power source such as a nighttime power source. A system collaboration unit is disposed between a motor to drive a water pump and a power source. The unit is connected to the motor via a cable. An output from the inverter is connected to the motor via a cable.
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公开(公告)号:US07191610B2
公开(公告)日:2007-03-20
申请号:US10822102
申请日:2004-04-08
申请人: Koichi Satoh , Seiji Yanagisawa , Shu Watabe , Yukihiro Fujita , Akio Shima , Yuji Tanaka , Shinichi Takahashi , Hiroshi Kunii
发明人: Koichi Satoh , Seiji Yanagisawa , Shu Watabe , Yukihiro Fujita , Akio Shima , Yuji Tanaka , Shinichi Takahashi , Hiroshi Kunii
IPC分类号: F25B27/00
CPC分类号: F24F5/0017 , Y02E10/22 , Y02E10/28 , Y02E60/147 , Y02E60/17 , Y02P70/525
摘要: In the air-conditioning system, a primary side to generate heat includes a heat storage and a heat source and produces cool or warm water using an inexpensive commercial power source such as a nighttime power source. A system collaboration unit is disposed between a motor to drive a water pump and a power source. The unit is connected to the motor via a cable. An output from the inverter is connected to the motor via a cable.
摘要翻译: 在空调系统中,产生热量的初级侧包括蓄热器和热源,并且使用诸如夜间电源的廉价的商业电源产生冷水或温水。 系统协作单元设置在驱动水泵和电源的马达之间。 本机通过电缆连接到电机。 逆变器的输出通过电缆连接到电机。
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公开(公告)号:US09126853B2
公开(公告)日:2015-09-08
申请号:US13391354
申请日:2010-05-25
IPC分类号: B01D61/12 , B01D61/20 , B01D61/22 , C02F1/44 , G05D11/03 , B01F3/08 , B01D61/02 , C02F103/02 , C02F103/04
CPC分类号: C02F1/44 , B01D61/02 , B01D61/12 , B01D61/20 , B01D61/22 , B01D2317/022 , B01D2317/04 , B01F3/0865 , B01F3/088 , C02F1/441 , C02F1/442 , C02F2103/02 , C02F2103/04 , C02F2301/08 , G05D11/03
摘要: Disclosed is a fresh water generator for fresh water production, which is effective to prevent a membrane life from becoming worse by suppressing the load on the membrane of a second semi-permeable membrane treatment facility when the concentrated water produced by the treatment of a first semi-permeable membrane treatment facility, and water to be treated with different osmotic pressure there from are mixed and treated with the second semi-permeable membrane treatment facility by the fresh water generator which comprises a means for storing the concentrated water produced from the first semi-permeable membrane treatment facility and water (B) to be treated, which is separately supplied in a storage tank A and a storage tank B in such a manner that the flow rate (mixture ratio) of the concentrated water to the water (B) to be treated is maintained constant, and supplying the concentrated water and the water (B) to be treated from each of the storage tanks to the second semi-permeable membrane treatment facility at a predetermined flow rate in at least a treatment process for treating water (A) to be treated with the first semi-permeable membrane treatment facility so as to obtain fresh water.
摘要翻译: 公开了一种用于淡水生产的淡水发生器,当通过处理第一半透明膜处理设备产生的浓缩水时,通过抑制第二半透膜处理设备的膜上的负荷来有效地防止膜寿命变差 渗透膜处理设备,以及其中渗透压不同的待处理水将由所述第二半渗透膜处理设备进行混合处理,所述净水器包括用于储存由所述第一半透膜处理设备产生的浓缩水的装置, 渗透膜处理装置和待处理的水(B),其分别供给到储罐A和储罐B中,使得浓缩水与水(B)的流量(混合比)(B)相对于 被处理保持恒定,并将待处理的浓缩水和水(B)从每个储存罐供应到第二半渗透性m 至少在处理用第一半透膜处理设备处理的水(A)的处理过程中以预定的流量进行污水处理设备以获得淡水。
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