公开(公告)号：US06334316B1

公开(公告)日：2002-01-01

申请号：US09581819

申请日：2000-06-19

申请人： Kensaku Maeda ,  Yoshiro Fukasaku ,  Hideo Inaba ,  Toshiaki Oouchi ,  Rosuke Nishida

发明人： Kensaku Maeda ,  Yoshiro Fukasaku ,  Hideo Inaba ,  Toshiaki Oouchi ,  Rosuke Nishida

IPC分类号： F25D1706

CPC分类号： F24F3/1423 ,  B01D53/261 ,  B01D53/28 ,  F24F5/001 ,  F24F2203/1016 ,  F24F2203/1028 ,  F24F2203/1036 ,  F24F2203/104 ,  F24F2203/1056 ,  F24F2203/1072 ,  F24F2203/1076 ,  F24F2203/1084 ,  Y02B30/52

摘要： A compact and energy efficient air conditioning system is operated with a desiccant material having a high differential adsorption capacity even at lower regeneration temperatures than those in the conventional system. The desiccant assisted air conditioning system comprises a process air path (A) for flowing process air to adsorb moisture from the process air by a desiccant member, and a regeneration air path (B) for flowing regeneration air heated by a heat source to desorb moisture from the desiccant member (103). The desiccant member is arranged so that the process air or the regeneration air flows alternatingly through the desiccant member. The desiccant member is arranged so that the process air or the regeneration air flows alternatingly through the desiccant member. The desiccant member comprises an organic polymer material, the organic polymer material comprising an amphoteric ion exchange polymer having an anion exchange group, a cation exchange group and bridging ligands, thereby exhibiting a high differential adsorption capacity.

摘要翻译： 即使在比常规系统中更低的再生温度下，紧凑且节能的空调系统也使用具有高差分吸附能力的干燥剂材料来操作。 干燥剂辅助空调系统包括用于使处理空气流动以通过干燥剂部件吸收来自处理空气的水分的处理空气路径（A）和用于使由热源加热的再生空气流动以再生水分的再生空气路径（B） 来自干燥剂构件（103）。 干燥剂构件被布置成使得处理空气或再生空气交替地流过干燥剂构件。 干燥剂构件被布置成使得处理空气或再生空气交替地流过干燥剂构件。 干燥剂构件包括有机聚合物材料，该有机聚合物材料包含具有阴离子交换基团的两性离子交换聚合物，阳离子交换基团和桥连配位体，从而表现出高的差异吸附能力。

公开(公告)号：US06442951B1

公开(公告)日：2002-09-03

申请号：US09720877

申请日：2001-04-20

申请人： Kensaku Maeda ,  Yoshiro Fukasaku

发明人： Kensaku Maeda ,  Yoshiro Fukasaku

IPC分类号： F24F3147

CPC分类号： F24F3/1423 ,  F24F5/001 ,  F24F2203/021 ,  F24F2203/1004 ,  F24F2203/1012 ,  F24F2203/1016 ,  F24F2203/1028 ,  F24F2203/1032 ,  F24F2203/104 ,  F24F2203/1048 ,  F24F2203/1056 ,  F24F2203/1068 ,  F24F2203/1084 ,  F28D15/02 ,  F28D15/0266 ,  F28D15/0275 ,  F28F1/24

摘要： A heat exchanger of a high heat exchange efficiency with a small size for its large heat exchanger duty is provided. The heat exchanger comprises: a first compartment 310 for flowing a first fluid A; a second compartment 320 for flowing a second fluid B; a first flow passage 251 passing through the compartment and for flowing the third fluid for exchanging heat with the first fluid A; and a second flow passage 252 passing through the compartment and for flowing the third fluid for exchanging heat with the first fluid B; the first and second flow passages 251, 252 are formed as an integral passage; the third fluid flows through from the first flow passage 251 to the second flow passage 252; the third fluid evaporates in the first flow passage 251 at a specific pressure; the third fluid condenses in the second flow passage 252 at the approximately specific pressure. Since the third fluid flows from the first flow passage to the second flow passage, heat transfer from the first compartment to the second compartment is allowed. High heat transfer coefficient is achieved due to evaporating heat transfer or condensing heat transfer.

摘要翻译： 提供了一种具有较高热交换效率的热交换器，其具有小尺寸，用于其大的热交换器功能。 热交换器包括：用于流动第一流体A的第一室310; 用于流动第二流体B的第二隔室320; 通过隔间并使第三流体与第一流体A进行热交换的第一流路251; 以及第二流路252，其穿过隔室并使第三流体与第一流体B交换热量; 第一和第二流动通道251,252形成为整体通道; 第三流体从第一流路251流到第二流路252; 第三流体在特定压力下在第一流路251中蒸发; 第三流体在大致特定的压力下在第二流动通道252中冷凝。 由于第三流体从第一流路流向第二流路，因此允许从第一隔室向第二隔室的热传递。 由于蒸发传热或冷凝传热，实现了高传热系数。