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    • 2. 发明申请
    • CONSTRUCTION COMPRISING A BUILDING STRUCTURE AND A GROUND-BASED HEAT STORAGE
    • 建筑结构包括建筑结构和基于地基的储热
    • WO2015094102A1
    • 2015-06-25
    • PCT/SE2014/051524
    • 2014-12-17
    • KODEDA GROUP AB
    • KODEDA, Frans
    • F24D11/00
    • F24D11/0214F24D11/0221F24D17/02F24D19/1072F24D2200/12F24D2200/14F24D2220/006F24D2220/10Y02B10/20Y02B10/70Y02B30/125
    • The invention relates to a construction (1 ) comprising a building structure (2, 3, 5, 6, 7) and a ground-based heat storage (4). The invention is characterized in that the building structure (2, 3, 5, 6, 7) is located essentially above the ground-based heat storage (4) in the vertical direction and that the building structure (2, 3, 5, 6, 7) has approximately the same or greater expanse than the heat storage (4) in a direction perpendicular to the vertical direction, wherein the building structure comprises at least one house body (2, 3) arranged in connection to the heat storage (4) and an enclosed space (5) located above the heat storage (4) adjacent to the house body (2, 3); wherein the enclosed space (5) has a limiting surface in the form of a wall (7) or a roof (6) being at least partially transparent to solar radiation and being arranged to allow heating of the enclosed space (5) by means of solar radiation; wherein an air heat pump system (21, 22, 23, 24, 26, 27) is arranged in connection to the enclosed space (5); wherein the air heat pump system (21, 22, 23, 24, 26, 27) is adapted to extract heat from the air in the enclosed space (5); wherein the air heat pump system is furthermore adapted to give off heat to both the heat storage (4) and to a heating system and/or domestic hot water system arranged in the house body (2, 3); and wherein the heat storage (4) is located in connection to a ground level in the enclosed space (5).
    • 本发明涉及一种包括建筑结构(2,3,5,6,7)和地面储热(4)的结构(1)。 本发明的特征在于,建筑结构(2,3,5,6,7)在垂直方向上基本上位于地面储热器(4)的上方,并且建筑结构(2,3,5,6 ,7)在垂直于垂直方向的方向上与所述储热器(4)大致相同或更大的宽度,其中所述建筑结构包括至少一个与所述蓄热器(4)连接的房屋主体(2,3) )和位于与所述房体(2,3)相邻的所述蓄热器(4)上方的封闭空间(5); 其中所述封闭空间(5)具有对太阳辐射至少部分透明的壁(7)或屋顶(6)形式的限制表面,并且被布置成允许通过以下方式加热封闭空间(5): 太阳辐射; 其中空气热泵系统(21,22,23,24,26,27)与所述封闭空间(5)连接设置; 其中所述空气热泵系统(21,22,23,24,26,27)适于从所述封闭空间(5)中的空气中提取热量; 其中所述空气热泵系统还适于向所述储热器(4)和布置在所述房体(2,3)中的加热系统和/或家用热水系统两者发出热量。 并且其中所述储热器(4)与所述封闭空间(5)中的地平面连接。
    • 3. 发明申请
    • HEAT SUPPLY SYSTEM AND HEAT SUPPLY METHOD
    • 供热系统,供热方法
    • WO2013091892A3
    • 2013-10-24
    • PCT/EP2012005338
    • 2012-12-21
    • AZ POKORNY TRADE S R O
    • CHYTIL LUBOR
    • F24D19/10F24D11/00
    • F24D11/003F24D3/18F24D11/005F24D11/0221F24D19/1045F24D19/1048F24D2200/08F24D2200/14F24D2200/18F24D2200/26F24D2200/32F24D2220/08Y02B10/20Y02B10/70Y02B30/126Y02B30/52
    • The invention relates to a heat supply system comprising a first conduit loop in which a heat generator and at least one heat consumer are arranged, a second conduit loop which can be connected to the first conduit loop and which includes at least one storage element and a pump arrangement for charging and discharging the storage element, and a third conduit loop that includes in particular a heat sink, by means of which low-inertia heat quantities can be transferred from external heat sources to the medium circulating in the conduit loops. According to the invention, the heat sink is a highly effective heat exchanger that has no or merely a small storage volume. The heat supply method is devised such that the available heat quantities are extracted mainly from the heat sink, any excess heat quantity is stored in the storage element, and the heat generator in the first conduit loop is off whenever possible.
    • 本发明涉及一种具有一个第一管电路,其中热发生器和至少一个热消耗布置,第二,连接到第一管电路,其包含至少一个存储器元件和用于充电和放电的存储元件和一个第三线回路中的泵组件的热供应系统 特别是,包括一散热器,可以接管的热惯性量从外部热源在线路循环圆平台。 散热器是不具有一个非常有效的热交换器或仅少量的存储卷。 该热供给方法被配置成使得热量可用量被去除主要的散热器,其中,剩余的存储在存储元件中被执行并且设置在所述第一管电路发热如果可能不能投入运行的。
    • 6. 发明申请
    • HEAT STORAGE
    • 热存储
    • WO2009065182A1
    • 2009-05-28
    • PCT/AU2008/001730
    • 2008-11-21
    • COOL OR COSY ENERGY TECHNOLOGY PTY LTDNEUWEN, David Bernard
    • NEUWEN, David Bernard
    • F28D20/02F24D15/02F24H7/00C09K5/06
    • C09K5/063F24D11/0221F24D11/0242F24D15/02F24D2200/12F24D2200/14F24D2200/22F24D2220/10F24H7/02F24H7/04F28D20/021F28D20/028Y02B10/20Y02B10/70Y02B30/125Y02B30/52Y02E60/145Y02P20/124
    • A heat store (11) comprising a reservoir (13), the interior of the reservoir accommodating a first heat exchanger (17) in which the first heat exchanger have a first fluid path connected to a first inlet (31) and first outlet (33) located to the exterior of the reservoir, the first inlet and first outlet being intended in use to be connected to a further heat exchanger (65, 67, 69) associated with a heat source (55, 57, 59) the reservoir being in thermal communication with a second heat exchanger (35) having a second inlet (37) and second outlet (39). The second inlet being intended in use to be connected to a source of a supply liquid and the second outlet being intended in use to be connected to a delivery outlet, the interior of the reservoir accommodating a phase change material capable of changing phase between a liquid and a solid phase, the interior of the reservoir accommodating a nucleation activation means (41) adapted to cause nucleation of the phase change material on the phase change material being at a temperature below its melting point. A heat battery comprising a plurality of heat stores is also claimed
    • 一种包括储存器(13)的储热器(11),所述储存器的内部容纳有第一热交换器(17),所述第一热交换器具有连接到第一入口(31)和第一出口(33)的第一流体路径 )位于所述储存器的外部,所述第一入口和第一出口旨在用于连接到与所述储存器处于所述储存器的热源(55,57,59)相关联的另一热交换器(65,67,69) 与具有第二入口(37)和第二出口(39)的第二热交换器(35)热连通。 第二入口旨在用于连接到供应液体的源,并且第二出口旨在用于连接到输送出口,储存器的内部容纳能够改变液体之间的相位的相变材料 和固相,所述储存器的内部容纳成核活化装置(41),所述成核活化装置适于使所述相变材料上的相变材料的成核温度低于其熔点。 还要求包括多个热存储器的热电池
    • 8. 发明申请
    • CAPTADOR SOLAR DE DOBLE CIRCUITO TÉRMICO TERMODI NÁMICO PARA PRODUCCIÓN DE FRÍO Y CALOR
    • 具有用于冷热生产的双重热力学热电路的太阳能收集器
    • WO2008056013A1
    • 2008-05-15
    • PCT/ES2007/000634
    • 2007-11-08
    • INTERNACIONAL MACRAL DE BAÑOS, S. L.MARIN MOSCOSO, Antonio
    • MARIN MOSCOSO, Antonio
    • F24J2/32F25B27/00F24J2/51
    • F24D17/02F24D3/08F24D11/0221F24D2200/12F24D2200/14F24S10/20F24S10/755F24S10/90Y02B10/20Y02B10/70Y02B30/125Y02E10/44
    • Está compuesto por dos placas soldadas que delimitan dos circuitos interiores totalmente independientes (3 y 4). De esta forma tenemos un captador solar (1 ) por el que circulará agua por uno de sus circuitos (4) bajo condiciones favorables de radiación solar, siendo impulsada por una bomba (15) hasta el depósito(10), donde cederá Ia energía captada a través del primer serpentín (1 1 ), mientras que cuanto Ia irradiancia no sea suficiente para obtener Ia temperatura deseada en el agua, dejará de funcionar Ia bomba (15), poniéndose en marcha el ciclo de compresión, N donde un bloque termodinámico (9) hará mover un fluido refrigerante que llevará al panel exterior a su temperatura de ebullición y Io atravesará por su correspondiente circuito (3), tomando el calor latente de evaporación del ambiente, el cual cederá posteriormente en el segundo serpentín (12) del depósito, donde tendrá lugar Ia condensación del gas refrigerante, obteniéndose por tanto, agua caliente independiente de las condiciones exteriores. Figuras 1 y 2.
    • 本发明涉及一种具有用于冷热产生的双重热力学热回路的太阳能收集器,由两个完全独立的内部电路(3和4)的焊接板形成。 水在有利的太阳辐射条件下流过太阳能收集器(1)的一个电路(4),所述水由泵(15)驱动到容器(10),捕获的能量通过第一线圈 11)。 当没有足够的辐照度以获得在水中所需的温度时,泵(15)停止操作并开始压缩循环,在此期间热力学单元(9)移动当其到达外板时处于沸点的冷却剂流体 并且通过相应的电路(3)穿过所述面板,从环境中吸收潜热蒸发热量,随后将其转移到冷凝剂冷凝的容器的第二线圈(12)中,由此获得热 水独立于外界条件。