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1. 发明授权

EP3469269B1 HOT WATER UNIT FLUID SUPPLY CONTROL SYSTEM AND METHOD 有权
公开(公告)号：EP3469269B1
公开(公告)日：2024-10-16
申请号：EP17809469.4
申请日：2017-06-09
IPC分类号： F24H1/12 , F24D17/00 , E03B1/04 , E03B3/02 , F24D19/10
CPC分类号： E03B1/04 , E03B3/02 , F24D17/0005 , F24D19/1051 , Y02B30/18 , Y02A20/108 , F24D17/001

2. 发明公开

EP3322016A1 FUEL CELL SYSTEM 审中-公开
标题翻译：燃料电池系统
公开(公告)号：EP3322016A1
公开(公告)日：2018-05-16
申请号：EP16821604.2
申请日：2016-07-04
申请人： Kyungdong Navien Co., Ltd.
发明人： PARK, Woo Sung , LEE, You Bin
IPC分类号： H01M8/04007
CPC分类号： H01M8/04007 , F24D3/082 , F24D11/004 , F24D11/005 , F24D17/001 , F24D17/0057 , F24D19/1066 , F24D2200/04 , F24D2200/19 , H01M8/04052 , H01M8/04067 , H01M8/04358 , H01M8/04768 , H01M2250/405 , Y02B90/16
摘要： The present invention relates to a fuel cell system comprising: a fuel cell configured to generate electricity and heat by a reaction between hydrogen and oxygen; a heat storage tank provided therein with a storage heat exchange unit configured to perform heat exchange between the heat recovered from the fuel cell and a fluid contained in the heat storage tank; a heat media supply line and a heat media recovery line configured to interconnect the fuel cell and the storage heat exchange unit to form a circulation flow channel of heat media; a bypass line branched from the heat media supply line and connected to the heat media recovery line; a flow channel switching device configured to selectively switch the flow channel of the heat media flowing along the heat media supply line to the storage heat exchange unit or the bypass line; and a controller configured to control the flow channel switching device such that the flow channel of the heat media flowing along the heat media supply line is connected to the storage heat exchange unit when the fuel cell generates power, and the flow channel of the heat media flowing along the heat media supply line is connected to the bypass line when the fuel cell stops power generation.
摘要翻译：燃料电池系统技术领域本发明涉及一种燃料电池系统，其包括：燃料电池，其被配置为通过氢气和氧气之间的反应来发电和发热其中设置有蓄热热交换单元，所述蓄热热交换单元被构造成在从所述燃料电池回收的热量与容纳在所述蓄热箱中的流体之间进行热交换; 热介质供应管线和热介质回收管线，所述热介质供应管线和所述热介质回收管线被配置为将所述燃料电池和所述储存热交换单元互连以形成热介质的循环流动通道从热介质供应管线分支并连接到热介质回收管线的旁路管线; 流路切换装置，其将沿着所述热介质供给路径流动的所述热介质的流路选择性地切换到所述储热交换部或所述旁路管路; 以及控制部，控制流路切换装置，使得在燃料电池发电时，沿着热介质供给管路流动的热介质的流路与蓄热热交换部连接，并且热介质的流路当燃料电池停止发电时，沿着热介质供应管线流动的燃料被连接到旁路管线。

3. 发明授权

EP2669605B1 HEAT PUMP DEVICE AND CONTROL METHOD FOR HEAT PUMP DEVICE 有权
标题翻译：热泵装置和热泵装置的控制方法
公开(公告)号：EP2669605B1
公开(公告)日：2018-02-28
申请号：EP11857381.5
申请日：2011-01-27
申请人： Mitsubishi Electric Corporation
发明人： TAMAKI, Shogo , SAITO, Makoto , BABA, Masanobu , OYA, Ryo
IPC分类号： F25B29/00 , F25B13/00 , F25B41/04
CPC分类号： F25B30/00 , F24D17/001 , F24D17/02 , F24D19/1054 , F24D2200/12 , F24D2200/24 , F25B13/00 , F25B41/04 , F25B2313/005 , F25B2313/009 , F25B2313/021 , F25B2313/0214 , F25B2313/02741 , F25B2313/0292 , F25B2313/0314 , F25B2313/0315 , F25B2339/047 , F25B2600/2515 , F25B2600/2519 , F25B2700/21161 , F25B2700/21163 , Y02B10/70 , Y02B30/18 , Y02B30/52
摘要： It is an object to sufficiently exercise the energy saving capacity by actively recovering waste heat. A heat pump apparatus 100 includes a heat source unit 301 that cools or heats a refrigerant, an indoor unit 302a that performs a cooling operation, and a hot water supply unit 303 that performs a hot water supply operation. When there is an operation request for one of the indoor unit 302a and the hot water supply unit 303, even when there is no operation request for the other, the heat pump apparatus 100 causes both the one and the other to operate if the other satisfies a certain condition so that the hot water supply unit 303 performs a hot water supply operation by utilizing a refrigerant heated by performing a cooling operation in the indoor unit 302a and the indoor unit 302a performs a cooling operation by utilizing a refrigerant cooled by performing a hot water supply operation in the hot water supply unit 303.

4. 发明授权

EP2783165B1 A SYSTEM FOR HEATING SUPPLY AIR WITH SIMULTANEOUS DEFROSTING OF A WATER-EXHAUST AIR HEAT EXCHANGER 有权
标题翻译： SYSTEM FOR SUPPLY与同时去结冰水气交换的加热
公开(公告)号：EP2783165B1
公开(公告)日：2017-03-15
申请号：EP12853121.7
申请日：2012-11-22
申请人： Swegon AB
发明人： MELLBIN, Martin , GUSTAVSSON, Andreas , FJAESTAD, Adam
IPC分类号： F24F12/00 , F24D11/02 , F24D17/00 , F24D17/02
CPC分类号： F24F12/003 , F24D11/0285 , F24D17/001 , F24D17/02 , F24D2200/12 , F24D2200/22 , F24F12/006 , F24F2203/10 , Y02B10/70 , Y02B30/125 , Y02B30/52 , Y02B30/563
摘要： A system (101) for heating supply air, with simultaneous defrosting of a water-exhaust air heat exchanger, when controlling the indoor climate in a building, at least comprising a first air duct (102) for supply air, a second air duct (105) for exhaust air, an exhaust-supply air heat exchanger (108) for selective heat transfer between supply air and exhaust air, a water system (109) having a hot water circuit (110) and a cold water circuit (111), a water-supply air heat exchanger (112) at the first air duct (102) and the water-exhaust air heat exchanger (113) at the second air duct (105), both for selective connection to the hot water circuit (110) or the cold water circuit (111), a heat pump (114) for selective heat transfer between the water circuits (110, 111), wherein the exhaust-supply air heat exchanger is a rotary heat exchanger (108)positioned upstream of the water-exhaust air heat exchanger (113) and having an efficiency correlating to rotational speed and rotational speed control means for enabling efficient defrosting of the water-exhaust air heat exchanger (113) by reduction of the rotational speed (RRED) in order to obtain an elevated temperature of the exhaust air (A6) passing through the water-exhaust air heat exchanger (113) in combination with the hot water circuit (110) simultaneously being connected to the water-exhaust air heat exchanger (113).
摘要翻译：一种用于加热供给空气系统（101），用与水的废气热交换器的同时除霜，当控制在建筑物的室内气候，至少包括用于供给空气，一个第二空气管道的第一空气导管（102）（ 105），用于排出空气（在排气供应空气热交换器（108），用于供应之间的空气和排出空气的选择性热传递，具有热水回路（110）和一个冷水电路111）一个水系统（109），一个供水空气热交换器（112）在所述第一空气导管（102）和在所述第二空气管道（105）的水排出的空气热交换器（113），两者都用于向热水回路选择性连接（110）或冷水电路（111），一个热泵（114），用于水的电路（110，111）之间的选择性的热传递，其中，所述排气供应空气热交换器被定位在水的上游的旋转换热器（108） -exhaust空气热交换器（113）和在具有效率相关，以旋转速度和旋转速度CON TROL装置，用于通过还原转速（RRed）的，以便获得在升高的温度的排出空气（A6）的使水排出空气热交换器（113）的效率的除霜穿过水排出空气热交换器（ 113）（与热水回路（110组合）同时被连接到所述水 - 排气热交换器113）。

5. 发明公开

EP2902721A4 STRUCTURE FOR CONTROLLING TEMPERATURE OF HOT- WATER SUPPLY FROM WASTE HEAT RECOVERY SYSTEM USING THREE-WAY VALVE OR MIXING VALVE, AND STRUCTURE FOR CONTROLLING TEMPERATURE OF HOT- WATER SUPPLY FROM WASTE HEAT RECOVERY SYSTEM USING HEAT EXCHANGER IN HOT- WATER TANK 有权
标题翻译：结构用于热水供应的从三通阀或混合用于热水供应，从废物流换热VIA热交换温度控制阀结构，热水箱废物流换热温度控制
公开(公告)号：EP2902721A4
公开(公告)日：2016-08-24
申请号：EP13840520
申请日：2013-09-02
申请人： KYUNGDONG NAVIEN CO LTD
发明人： SON SEUNG KIL , HUR SOO HYUN , PARK WOO SUNG
IPC分类号： F24H9/20 , F22D5/26 , F24D3/08 , F24D11/00 , F24D12/02 , F24D17/00 , F24D19/10
CPC分类号： F24H1/208 , F01K5/02 , F22B1/16 , F22D5/26 , F24D11/004 , F24D11/005 , F24D12/02 , F24D17/001 , F24D19/1066 , F24D19/1069 , F24D2200/18 , F24D2200/19 , F24D2200/20 , F24D2200/26 , F24H9/2007 , Y02B30/14

6. 发明授权

EP2896333B1 Equipment for catering 有权
标题翻译：机餐饮
公开(公告)号：EP2896333B1
公开(公告)日：2016-08-24
申请号：EP14198375.9
申请日：2014-12-16
申请人： Inox-Bim S.r.l.
发明人： Ionni, Fabio
IPC分类号： A47J37/12
CPC分类号： A47J27/14 , A47J36/26 , A47J37/0647 , A47J37/1247 , F24D11/005 , F24D17/001 , F24D19/1066 , F24H1/06 , F24H1/145 , F28D7/106 , F28D9/0037 , F28D21/0003 , F28F1/022 , F28F1/04 , F28F27/02

7. 发明公开

EP3001845A1 WASTE WATER RECYCLING SYSTEM 审中-公开
标题翻译：废水回收系统
公开(公告)号：EP3001845A1
公开(公告)日：2016-04-06
申请号：EP13771558.7
申请日：2013-08-21
申请人： Metertech Limited
发明人： PEARSON, Allen , MURRAY, Edward
IPC分类号： E03B1/04 , F24D17/00 , F28D21/00
CPC分类号： E03B1/042 , E03B2001/045 , E03C2001/005 , F24D17/001 , F24D17/0094 , F24D2200/20 , F28D21/0012 , Y02A20/304 , Y02B30/566
摘要： A system (10) for capturing and cleaning greywater and storing and supplying cleaned greywater comprises an inlet (20) for greywater, a first reservoir (30) for greywater, a second reservoir (70) for cleaned greywater and an outlet (77) for supply of cleaned greywater. The system is configured such that the inlet feeds the first reservoir, the first reservoir feeds the second reservoir and the second reservoir feeds the outlet. A wall (31) of the first reservoir is contiguous with a wall (71) of the second reservoir. The first reservoir (30) may comprise a heat exchanger (100) for the recovery of heat from the waste water. A method of manufacturing the system includes the step of providing a mould having a mould cavity configured to form both first and second reservoirs.
摘要翻译：一种用于捕获和清洁灰水以及存储和供应清洁过的灰水的系统（10），包括用于灰水的入口（20），用于灰水的第一蓄水池（30），用于清洁灰水的第二蓄水池（70）提供清洁的灰水。该系统构造成使得入口供给第一储存器，第一储存器供给第二储存器并且第二储存器供给出口。第一储存器的壁（31）与第二储存器的壁（71）邻接。第一储存器（30）可以包括用于从废水中回收热量的热交换器（100）。制造该系统的方法包括提供具有配置成形成第一和第二储存器的模腔的模具的步骤。

8. 发明公开

EP2783165A4 A SYSTEM FOR HEATING SUPPLY AIR WITH SIMULTANEOUS DEFROSTING OF A WATER-EXHAUST AIR HEAT EXCHANGER 有权
标题翻译： SYSTEM FOR SUPPLY与同时去结冰水气交换的加热
公开(公告)号：EP2783165A4
公开(公告)日：2015-11-18
申请号：EP12853121
申请日：2012-11-22
申请人： SWEGON AB
发明人： MELLBIN MARTIN , GUSTAVSSON ANDREAS , FJAESTAD ADAM
IPC分类号： F24F12/00 , F24D11/02 , F24D17/00 , F24D17/02
CPC分类号： F24F12/003 , F24D11/0285 , F24D17/001 , F24D17/02 , F24D2200/12 , F24D2200/22 , F24F12/006 , F24F2203/10 , Y02B10/70 , Y02B30/126 , Y02B30/52 , Y02B30/563
摘要： A system (101) for heating supply air, with simultaneous defrosting of a water-exhaust air heat exchanger, when controlling the indoor climate in a building, at least comprising a first air duct (102) for supply air, a second air duct (105) for exhaust air, an exhaust-supply air heat exchanger (108) for selective heat transfer between supply air and exhaust air, a water system (109) having a hot water circuit (110) and a cold water circuit (111), a water-supply air heat exchanger (112) at the first air duct (102) and the water-exhaust air heat exchanger (113) at the second air duct (105), both for selective connection to the hot water circuit (110) or the cold water circuit (111), a heat pump (114) for selective heat transfer between the water circuits (110, 111), wherein the exhaust-supply air heat exchanger is a rotary heat exchanger (108)positioned upstream of the water-exhaust air heat exchanger (113) and having an efficiency correlating to rotational speed and rotational speed control means for enabling efficient defrosting of the water-exhaust air heat exchanger (113) by reduction of the rotational speed (RRED) in order to obtain an elevated temperature of the exhaust air (A6) passing through the water-exhaust air heat exchanger (113) in combination with the hot water circuit (110) simultaneously being connected to the water-exhaust air heat exchanger (113).

9. 发明公开

EP2778556A4 COGENERATION SYSTEM AND METHOD FOR CONTROLLING SAME 有权
标题翻译：热电联产及其控制方法
公开(公告)号：EP2778556A4
公开(公告)日：2015-05-20
申请号：EP12848081
申请日：2012-07-06
申请人： PANASONIC CORP
发明人： NAGASATO HIROSHI , KIHARA MASATO , KATOU MOTOMICHI
IPC分类号： F24H1/00 , F02G5/04 , H01M8/00 , H01M8/02 , H01M8/04
CPC分类号： F24H1/00 , F24D17/001 , F24D19/1063 , F24D2200/19 , H01M8/02 , H01M8/04029 , H01M8/04604 , H01M8/04955 , H01M16/006 , H01M2220/10 , H01M2250/10 , H01M2250/405 , Y02B90/14 , Y02B90/16 , Y02E20/14
摘要： A cogeneration system allows users to easily know a remaining power generation duration and prepare for stop of power generation when the cogeneration system is in independent operation. The cogeneration system includes: a cogeneration apparatus which generates electric power using supplied fuel gas (151) and supplies the electric power and heat (102); a heat accumulator (103) which accumulates the heat supplied by the cogeneration apparatus (102); a controller (106) which controls at least start and stop of the cogeneration apparatus (102); and a display unit (104) that displays a remaining power generation duration which is a length of time for which the cogeneration apparatus (102) can continue power generation. The controller (106) further calculates the remaining power generation duration based on a remaining heat accumulation capacity which is a difference between (a) a maximum accumulable heat amount which is the amount of heat the heat accumulator (103) is capable of accumulating and (b) a current accumulated heat amount that is the amount of heat currently accumulated in the heat accumulator (103), and causes the display (104) unit to display the calculated remaining power generation duration.

10. 发明公开

EP2865951A1 Installation de production d'eau chaude thermodynamique 失效
标题翻译：用于产生热水热力学系统
公开(公告)号：EP2865951A1
公开(公告)日：2015-04-29
申请号：EP14189476.6
申请日：2014-10-20
申请人： Systovi
发明人： Benabdelkarim, Mohamed , Janot, Pascal
IPC分类号： F24D5/02 , F24D17/00 , F24D17/02 , F24D19/10 , F24F5/00 , F24F13/04
CPC分类号： F24D17/001 , F24D5/02 , F24D17/02 , F24D19/1054 , F24D19/1084 , F24D2200/12 , F24D2200/16 , F24D2220/042 , F24D2240/26 , F24F5/0096 , F24F13/04 , F24F2005/0067 , Y02B10/20 , Y02B10/70 , Y02B30/52
摘要： L'invention se rapporte à une installation de production d'eau chaude sanitaire par récupération de calories dans l'air mettant en oeuvre un réservoir (2) destiné à contenir de l'eau et une pompe (3) à chaleur comprenant un échangeur de chaleur et un moyen de circulation d'air, cette installation comprenant d'une part, au moins un panneau (1) photovoltaïque lequel produit du courant qui alimente les moyens électriques de l'installation et, d'autre part, un circuit d'air qui, pour alimenter la pompe à chaleur, le prélève à l'extérieur , le fait circuler au contact du panneau (1) photovoltaïque pour refroidir le dit panneau et par la même réchauffer l'air envoyé dans l'échangeur de la pompe à chaleur de la pompe à chaleur qui est intégré dans une enveloppe commune au réservoir cette installation étant caractérisée en ce que le moyen de circulation d'air est déporté loin de l'enveloppe commune du réservoir et est associé avec un mélangeur 4 d'air.

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