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71. 发明公开

EP2525157A3 Procedé de production d'un débit d'eau chaude et système associé 有权转让
标题翻译：维尔法赫恩·赫尔斯特伦（Heirwasserdurchsatzes）
公开(公告)号：EP2525157A3
公开(公告)日：2017-02-15
申请号：EP12165306.7
申请日：2012-04-24
申请人： ARMINES
发明人： Clodic, Denis , Nehme, Georges
IPC分类号： F24D17/00 , F24D17/02
CPC分类号： F24D17/001 , F24D17/02 , F24D19/1054 , F24D2200/20 , Y02B30/18 , Y02B30/52
摘要： L'invention consiste en un procédé de production d'un débit (M ECH ) d'eau chaude à une température souhaitée à partir d'eau de ville (10), par une pompe à chaleur (50) comportant un condenseur (4) apte à réchauffer l'eau de ville par un fluide frigorigène qui s'y condense et un évaporateur (3) dans lequel circule de l'eau grise apte à faire évaporer ledit fluide frigorigène, ladite eau grise étant stockée en amont dudit évaporateur (3) dans un réservoir (1) alimenté par de l'eau tiède utilisée obtenue par mélange (110) de l'eau chaude et de l'eau de ville (10), le procédé comportant une étape d'obtention d'au moins une température parmi la température de l'eau de ville et la température de l'eau tiède utilisée, caractérisé en ce qu'il comporte de plus une étape de réglage du débit d'eau grise (M EG ) sortant dudit réservoir (1) et entrant dans ledit évaporateur (3) en fonction de la au moins une température. Un système associé est également présenté.
摘要翻译：该方法包括获得城市用水的温度（10）和所用温水的温度。基于城市水的温度和使用的温水的温度，调节离开储层（1）并进入蒸发器（3）的灰水的流量（M-EG）。计算流量放大率，热水温度与市政水温之间的差值等于所用温水温度与市政水温之间的差值。还包括用于允许在所需温度下从市政水流出热水的系统的独立权利要求。

72. 发明授权

EP2778556B1 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：EP2778556B1
公开(公告)日：2016-10-12
申请号：EP12848081.1
申请日：2012-07-06
申请人： Panasonic Corporation
发明人： NAGASATO, Hiroshi , KIHARA, Masato , KATOU, Motomichi
IPC分类号： F24H1/00 , F02G5/04 , H01M8/00 , H01M8/04 , H01M8/02
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.

73. 发明公开

EP2829823A4 REFRIGERATION CYCLING DEVICE 有权
标题翻译： KÜHLZYKLUSVORRICHTUNG
公开(公告)号：EP2829823A4
公开(公告)日：2015-12-09
申请号：EP12871423
申请日：2012-03-15
申请人： MITSUBISHI ELECTRIC CORP
发明人： TAMAKI SHOGO , SAITO MAKOTO , OYA RYO
IPC分类号： F25B29/00 , F24D17/00 , F24D19/10 , F24F3/06 , F24F5/00 , F25B13/00 , F25B49/02
CPC分类号： F25B49/02 , F24D17/001 , F24D19/1051 , F24D2200/22 , F24F3/065 , F24F5/0096 , F25B13/00 , F25B29/003 , F25B49/022 , F25B2313/003 , F25B2313/0231 , F25B2313/02742 , F25B2313/029 , F25B2313/0314 , F25B2313/0315
摘要： A simultaneous cooling and hot water supply operation mode, in which a cooling operation mode in which a refrigerant from a compressor 1 is caused to flow to an indoor heat exchanger 10 of an indoor unit 303 having a cooling load, and a hot water supply operation in which a refrigerant from the compressor 1 is caused to flow to a water heat exchanger 16 of a hot water supply unit 304 having a hot water supply demand, are simultaneously performed, is provided. As control modes of the simultaneous cooling and hot water supply operation mode, a cooling-prioritized mode in which the operation frequency of the compressor 1 is controlled according to the cooling load, and a hot-water-supply-prioritized mode in which the operation frequency of the compressor 1 is controlled according to the hot water supply demand, are provided. An operation control part 103 switches the control mode of the simultaneous cooling and heating and hot water supply operation mode between the cooling-prioritized mode and the hot-water-supply-prioritized mode according to the relationship between the cooling load and the hot water supply load.

74. 发明公开

EP2527759A3 Procédé et installation de collecte d'énergie solaire 审中-公开
标题翻译：用于收集太阳能的方法和装置，
公开(公告)号：EP2527759A3
公开(公告)日：2015-11-18
申请号：EP12350002.7
申请日：2012-05-21
申请人： Systovi
发明人： Janot, Pascal , Benabdelkarim, Mohamed
IPC分类号： F24J2/04 , H01L31/058
CPC分类号： F24H6/00 , F24D5/005 , F24D5/02 , F24D17/001 , F24D2200/02 , F24D2200/14 , F24F5/0046 , F24F2005/0064 , F24S10/30 , F24S2020/17 , H02S40/44 , Y02B10/20 , Y02B10/70 , Y02E10/44 , Y02E10/60
摘要： Procédé de collecte d'énergie d'une installation de collecte d'énergie solaire comprenant un groupe de panneaux 2 photovoltaïques refroidis par air et un groupe de capteurs 3 solaires thermiques à air dans lequel circule de l'air à chauffer, un échangeur 6 pour un ballon d'eau chaude ce procédé étant caractérisé en ce que par des conduites distinctes, on achemine séparément l'air du groupe de capteurs thermiques et l'air des panneaux photovoltaïques vers un moyen d'aiguillage et selon le besoin, on utilise directement l'air du groupe de panneaux photovoltaïques ou du groupe de capteurs thermiques solaire ou on redirige le flux uniquement vers les capteurs thermiques solaires pour un nouveau passage en vue d'atteindre une température minimale.

75. 发明公开

EP2922129A1 Fuell cell system 有权
标题翻译： BRENNSTOFFZELLSYSTEM
公开(公告)号：EP2922129A1
公开(公告)日：2015-09-23
申请号：EP15159188.0
申请日：2015-03-16
申请人： AISIN SEIKI KABUSHIKI KAISHA
发明人： Goto, Shunsuke
IPC分类号： H01M8/04
CPC分类号： H01M8/04022 , F24D17/001 , F24D19/0092 , F24D19/1051 , F24D2200/19 , H01M8/04373 , H01M8/04425 , H01M8/04686 , H01M8/04776 , H01M8/0618 , H01M8/2475 , H01M2008/1293 , H01M2250/405 , Y02B90/16
摘要： A fuel cell system includes a fuel cell module (20) performing a power generation and discharging an exhaust combustion gas generated by the power generation, a water storage tank (31) storing water that serves as a storage water, a storage water circulation line (32) at which the storage water circulates, a storage water circulation pump (32a) provided at the storage water circulation line and driven by an electric motor, a heat exchanger performing a heat exchange (33) between the exhaust combustion gas and the storage water, an air bubble detection portion (S102) detecting a generation of air bubbles at the storage water circulation line and a control unit (60) controlling the storage water circulation pump to stop operating for a predetermined time period in response to an air bubble detection signal generated by the air bubble detection portion and to resume the operation of the storage water circulation pump.
摘要翻译：燃料电池系统包括执行发电产生的排气燃烧气体的发电和排出的燃料电池模块（20），储存用作储水的水的储水箱（31），储水循环管线 32），设置在蓄水循环管线处并由电动机驱动的储水循环泵（32a），在排气燃烧气体与贮存水之间进行热交换（33）的热交换器，气泡检测部（S102），检测在储水循环管线处产生的气泡;以及控制单元（60），其响应于气泡检测信号控制存储水循环泵停止运行预定时间段由气泡检测部产生并恢复存储水循环泵的操作。

76. 发明公开

EP2789933A4 HEAT PUMP TYPE HEATING/HOT-WATER SUPPLY SYSTEM 有权
标题翻译：热泵LIKE热水供应系统
公开(公告)号：EP2789933A4
公开(公告)日：2015-07-22
申请号：EP11877045
申请日：2011-12-06
申请人： MITSUBISHI ELECTRIC CORP
发明人： TAMAKI SHOGO , SAITO MAKOTO , UNEZAKI FUMITAKE , UEHARA NOBUAKI
IPC分类号： F25B1/00 , F24D3/18 , F24D17/02 , F24D19/10 , F24H1/00
CPC分类号： F24D19/1072 , F24D3/18 , F24D11/0214 , F24D17/001 , F24D17/02 , F24D19/1039 , F24D19/1054 , F25B2600/13 , Y02B30/52 , Y02B30/745
摘要： A heat pump heating and hot-water system includes a water heating heat exchanger for heating water by heat exchange with a heating medium heated by a heat pump unit, an indoor heating unit, a heating circulation circuit for selectively pumping the heating medium to either of the water heating heat exchanger and the indoor heating unit using a heating medium pump, and a hot-water accumulating circuit that sends water in a hot-water storage tank to the water heating heat exchanger and returns water having passed through the water heating heat exchanger to the hot-water storage tank using a water pump. The volumetric flow rate of the heating medium pumped to the water heating heat exchanger by the heating medium pump is higher than or equal to the volumetric flow rate of the water pumped to the water heating heat exchanger by the water pump.

77. 发明公开

EP2835598A1 METHOD FOR CONTROLLING AND DEVICE FOR CONTROLLING COGENERATION SYSTEM 审中-公开
标题翻译：控制方法及装置用于控制功率热电厂
公开(公告)号：EP2835598A1
公开(公告)日：2015-02-11
申请号：EP13755482.0
申请日：2013-02-27
申请人： JX Nippon Oil & Energy Corporation
发明人： HIWATARI, Manabu
IPC分类号： F24H1/18 , F24H1/00
CPC分类号： H01M8/04074 , F24D3/08 , F24D11/005 , F24D17/001 , F24D19/1066 , F24D2200/19 , H01M8/04029 , H01M8/04052 , H01M8/04701 , H01M2250/20 , Y02T90/32
摘要： In a cogeneration system that stores hot water heated by exhaust heat of a generator in a hot water storage tank, during return to normal control from anti-freezing control, the return to the normal control is rapidly performed and freezing of water in a water circulating passage is also suppressed, suppressing the drop in system efficiency. When a freezing condition, indicating a risk of freezing of the water in the water circulating passage such as a radiator unit, is met, the anti-freezing control is executed. When a cancellation condition of the anti-freezing control is met, a heat recovery temperature target value (first return target value) SVTf2 at the outlet of the generator is set to a minimum target temperature SVTf2_min. Until an actual heat recovery outlet temperature (actual temperature) PVTf2 reaches a standard target value Tf2_std, every time the actual temperature PVTf2 reaches a value obtained by subtracting a predetermined temperature x from the first return target value SVTf2, the first return target value SVTf2 is updated to a value obtained by adding a predetermined temperature y (> x).
摘要翻译：在一个热电联产系统做存储由在热水储存罐的发电机的废热加热的热水，返回到从防冻控制通常控制时，返回到正常控制被快速地执行，并在水的水的冻结循环因此通道被抑制，抑制系统效率的下降。当冷冻条件，指示所述水的冻结在水循环通道的危险：例如散热器单元，被满足，防冻控制被执行。当防冻控制的取消条件被满足，热回收温度目标值（第一返回目标值）SVTf2在发电机的出口设置为最小目标温度SVTf2_min。直到在实际的热回收出口温度（实际温度）PVTf2达到标准目标值Tf2_std，每次的实际温度PVTf2达到由从所述第一返回目标值SVTf2减去预定温度x而获得的值，所述第一返回目标值SVTf2是更新为通过将预定温度Y（> X）获得的值。

78. 发明公开

EP2831510A1 A HEAT PUMP SYSTEM USING LATENT HEAT 有权转让
标题翻译： WÄRMEPUMPENSYSTEMMIT LATENTERWÄRME
公开(公告)号：EP2831510A1
公开(公告)日：2015-02-04
申请号：EP13712298.2
申请日：2013-03-27
申请人： VGE bvba
发明人： VAN GYSEL, Carl
IPC分类号： F24D3/18 , F24D17/00 , F24D17/02 , F24D19/00 , F25B30/02 , F25C1/14 , F28D20/02
CPC分类号： F25B30/06 , F24D3/18 , F24D10/00 , F24D17/001 , F24D17/02 , F24D19/00 , F24D19/0095 , F24D2200/11 , F24D2200/12 , F24D2200/13 , F24D2200/20 , F24D2200/24 , F24D2200/32 , F25B7/00 , F25B25/005 , F25B29/003 , F25B30/02 , F25B2339/047 , F25C1/14 , F25C2301/002 , F28D20/02 , F28D20/021 , F28F19/008 , Y02B10/40 , Y02B10/70 , Y02B30/12 , Y02B30/17 , Y02B30/18 , Y02B30/52 , Y02E60/145 , Y02P60/855
摘要： The present invention is directed to a heat pump system comprising an heat-exchanger extracting latent heat from liquid stored in a reservoir, thereby forming ice slurry, and means for delivering said heat to a heat consumer, characterized in that the heat pump system comprises random input of extrinsic liquid into the reservoir and means for removing ice slurry outward the system.
摘要翻译：本发明涉及一种热泵系统，其包括从存储在储存器中的液体中提取潜热的热交换器，从而形成冰浆，以及用于将热量传递给热消耗器的装置，其特征在于，所述热泵系统包括随机将外部液体输入到储存器中，以及用于将系统中的冰浆向外移除的装置。

79. 发明公开

EP2829817A1 METHOD FOR CONTROLLING AND DEVICE FOR CONTROLLING COGENERATION SYSTEM 审中-公开
标题翻译： VERFAHREN ZUR STEUERUNG VORRICHTUNG ZUR STEUERUNG EINES KRAFT-WÄRME-KOPPLUNGSANLAGE
公开(公告)号：EP2829817A1
公开(公告)日：2015-01-28
申请号：EP13754237.9
申请日：2013-02-27
申请人： JX Nippon Oil & Energy Corporation
发明人： HIWATARI, Manabu
IPC分类号： F24H1/18 , F24H1/00
CPC分类号： F24H1/18 , F24D3/08 , F24D11/005 , F24D17/001 , F24D19/1066 , F24D2200/19
摘要： In a cogeneration system that stores hot water heated by exhaust heat of a generator in a hot water storage tank, a situation in which there is a risk of freezing of water in a water circulating passage is accurately grasped, and thus anti-freezing control prevents the freezing from occurring and unnecessary anti-freezing control is reduced to suppress the drop in efficiency of the system. When determined that an environmental temperature Ta is lower than a lower-limit value Ta_min, it is determined whether or not a temperature difference ΔT (= Tr1 - Tr2) between a radiator inlet temperature Tr1 and a radiator outlet temperature Tr2 exceeds a predetermined value ΔT0, and when determined that the temperature difference exceeds the predetermined value ΔT0, it is determined that there is a risk of freezing of the water in the water circulating passage and an command to execute the anti-freezing control is output.
摘要翻译：在将发电机的排热加热的热水储存在热水储存箱中的热电联供系统中，能够准确地掌握水循环通道中的水冻结的风险，防止冷冻控制降低了发生的冻结和不必要的防冻控制，以抑制系统的效率下降。当确定环境温度Ta低于下限值Ta_min时，确定散热器入口温度Tr1和散热器出口温度Tr2之间的温差“T（= Tr1-Tr2）”是否超过预定值 “T0”，并且当确定温度差超过预定值“T0”时，确定存在水循环通道中的水冻结的风险，并且输出执行防冻控制的命令。

80. 发明公开

EP2802821A2 HEAT RECOVERY 有权
标题翻译： WÄRMERÜCKGEWINNUNG
公开(公告)号：EP2802821A2
公开(公告)日：2014-11-19
申请号：EP13711934.3
申请日：2013-02-28
申请人： Waste Heat Recovery Ltd.
发明人： THOMSON, Colin Thomas
IPC分类号： F24D17/00 , F24D17/02 , F24D19/00
CPC分类号： F22B1/16 , A01J7/022 , F22B1/18 , F24D17/001 , F24D17/02 , F24D19/0092 , F24D2200/12 , F24D2200/123 , F24D2200/16 , F24D2200/24 , F24D2200/31 , F24D2220/0235 , F24D2220/048 , F24D2220/10 , F25B40/04 , F25B2400/0405 , F25B2400/06 , F25B2600/2501 , Y02B10/70 , Y02B30/18 , Y02B30/52 , Y02P60/891
摘要： A heat recovery system arranged to heat water includes at least one heat exchanger (9) arranged to heat water by heat exchange with waste heat. A storage reservoir (11) is arranged to store water heated by the heat exchanger (9). The heat exchanger (9) is switchable between a first mode of operation in which water is circulated by a pump (12) in a circuit that includes the storage reservoir (11) and the heat exchanger (9), and a second mode of operation in which water is circulated by the pump (12) in a circuit that by-passes the heat exchanger (9). Heated water of at least a desired minimum temperature can be supplied to at least one outlet during both the first and second modes of operation.
摘要翻译：布置成加热水的热回收系统包括布置成通过与废热进行热交换来加热水的至少一个热交换器（9）。储存容器（11）被布置成存储由热交换器（9）加热的水。热交换器（9）可在第一工作模式之间切换，在第一工作模式中，水通过包括储存容器（11）和热交换器（9）的回路中的泵（12）循环，以及第二操作模式其中水在通过热交换器（9）的回路中由泵（12）循环。在第一和第二操作模式期间，可将至少一个期望的最低温度的加热水提供给至少一个出口。

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