公开(公告)号：US08187368B2

公开(公告)日：2012-05-29

申请号：US12549789

申请日：2009-08-28

Applicant: Ming-Shiann Shih ,  Yu-Li Lin ,  Jau-Chyn Huang ,  Ting-Wei Huang ,  Yen-Hsun Chi ,  Yo-Ming Chang ,  Ming-Shan Jeng ,  Ya-Wen Chou

Inventor： Ming-Shiann Shih ,  Yu-Li Lin ,  Jau-Chyn Huang ,  Ting-Wei Huang ,  Yen-Hsun Chi ,  Yo-Ming Chang ,  Ming-Shan Jeng ,  Ya-Wen Chou

IPC: B01D53/02

CPC classification number: B01D53/06 ,  B01D53/0438 ,  B01D53/261 ,  B01D2259/40096

Abstract: The present invention provides a low power consumption desorption apparatus, which utilizes a pair of electrodes coupled to an absorbing material to provide an electric current flowing through the absorbing material so as to desorb the substances absorbed within the absorbing material. By means of the desorption apparatus of the present invention, the absorbing material is able to enhance the desorbing efficiency and reducing power consumption during desorption. The present invention further provides a dehumidifier using the low power consumption desorption apparatus for providing a continuous dry air flow to desorb and regenerate the moisture from the absorbing material so that the dehumidifier is capable of removing moisture in the air repeatedly to reduce the humidity.

Abstract translation: 本发明提供了一种低功耗解吸装置，其利用耦合到吸收材料的一对电极来提供流过吸收材料的电流，以便吸收吸收材料中吸收的物质。 借助于本发明的解吸装置，吸收材料能够提高解吸效率并降低解吸过程中的功耗。 本发明还提供了一种使用低功耗解吸装置的除湿器，用于提供连续的干燥空气流以从吸收材料解吸和再生水分，使得除湿器能够重复地去除空气中的水分以降低湿度。

公开(公告)号：US20100285376A1

公开(公告)日：2010-11-11

申请号：US12502603

申请日：2009-07-14

Applicant: Chan-Li Hsueh ,  Cheng-Hong Liu ,  Jie-Ren Ku ,  Ya-Yi Hsu ,  Cheng-Yen Chen ,  Reiko Ohara ,  Shing-Fen Tsai ,  Chien-Chang Hung ,  Ming-Shan Jeng ,  Fanghei Tsau

Inventor： Chan-Li Hsueh ,  Cheng-Hong Liu ,  Jie-Ren Ku ,  Ya-Yi Hsu ,  Cheng-Yen Chen ,  Reiko Ohara ,  Shing-Fen Tsai ,  Chien-Chang Hung ,  Ming-Shan Jeng ,  Fanghei Tsau

IPC: H01M8/18 ,  H01F1/04 ,  B05D5/12

CPC classification number: B01J35/0033 ,  B01J23/8906 ,  B01J23/892 ,  B01J31/08 ,  B01J35/008 ,  B01J37/0244 ,  B01J37/16 ,  B01J2531/821 ,  B01J2531/845 ,  B82Y25/00 ,  C01B3/065 ,  H01M8/04216 ,  H01M8/065 ,  Y02E60/362 ,  Y02P20/584 ,  Y02P70/56

Abstract: Disclosed is a magnetic catalyst formed by a single or multiple nano metal shells wrapping a carrier, wherein at least one of the metal shells is iron, cobalt, or nickel. The magnetic catalyst with high catalyst efficiency can be applied in a hydrogen supply device, and the device can be connected to a fuel cell. Because the magnetic catalyst can be recycled by a magnet after generating hydrogen, the practicability of the noble metals such as Ru with high catalyst efficiency is dramatically enhanced.

Abstract translation: 公开了由包裹载体的单个或多个纳米金属壳形成的磁性催化剂，其中金属壳中的至少一个为铁，钴或镍。 具有高催化剂效率的磁性催化剂可以应用在氢气供应装置中，该装置可以连接到燃料电池。 由于磁性催化剂在产生氢气之后可通过磁体再循环，所以高催化剂效率的贵金属如Ru的实用性显着提高。

公开(公告)号：US20100234211A1

公开(公告)日：2010-09-16

申请号：US12472589

申请日：2009-05-27

Applicant: Chan-Li Hsueh ,  Jie-Ren Ku ,  Shing-Fen Tsai ,  Ya-Yi Hsu ,  Cheng-Hong Liu ,  Ming-Shan Jeng ,  Fanghei Tsau

Inventor： Chan-Li Hsueh ,  Jie-Ren Ku ,  Shing-Fen Tsai ,  Ya-Yi Hsu ,  Cheng-Hong Liu ,  Ming-Shan Jeng ,  Fanghei Tsau

IPC: B01J31/08 ,  B01J23/00 ,  B01J23/46 ,  B01J23/755 ,  B01J23/745 ,  B01J23/34 ,  B01J23/72 ,  B01J23/75

CPC classification number: B01J23/462 ,  B01J31/08 ,  B01J35/023 ,  B01J35/04 ,  B01J37/16 ,  B01J2531/821 ,  C01B3/065 ,  Y02E60/362

Abstract: A method of manufacturing a catalyst for catalyzing hydrogen releasing reaction includes following steps. First, a solution with metal catalyst ions is provided. Next, several catalyst supports are provided. Each catalyst support includes several chelating units. Then, the catalyst supports are mixed with the solution, so that the metal catalyst ions in the solution chelate with the chelating units on the surface of each catalyst support. Subsequently, the metal catalyst ions chelating with the surface of the catalyst supports are reduced, so that metal catalyst nano-structures and/or metal catalyst atoms are coated on the surface of the catalyst supports, for forming catalysts.

Abstract translation: 制造催化氢释放反应的催化剂的方法包括以下步骤。 首先，提供具有金属催化剂离子的溶液。 接下来，提供几种催化剂载体。 每个催化剂载体包括几个螯合单元。 然后，将催化剂载体与溶液混合，使溶液中的金属催化剂离子与螯合单元在每个催化剂载体的表面上螯合。 随后，与催化剂载体表面螯合的金属催化剂离子被还原，使得金属催化剂纳米结构和/或金属催化剂原子被涂覆在催化剂载体的表面上，用于形成催化剂。

公开(公告)号：US20100003912A1

公开(公告)日：2010-01-07

申请号：US12498838

申请日：2009-07-07

Applicant: Ming-Shan Jeng ,  Yan-Ching Lee ,  Ya-Wen Chou ,  Chao-Ho Lan

Inventor： Ming-Shan Jeng ,  Yan-Ching Lee ,  Ya-Wen Chou ,  Chao-Ho Lan

IPC: F24F7/007

CPC classification number: B01D46/10 ,  B01D46/0028 ,  B01D2279/51 ,  B01D2279/65 ,  F24F3/1607 ,  F24F2003/1667 ,  Y02A50/22

Abstract: A ventilation apparatus for forming a sterile medical area mainly includes an operation module for ventilating the air. The apparatus for ensuring the air cleanliness includes a filtering unit for filtering dusts and particles in the air and a sterilizing unit for eliminating micro organisms. The clean and sterilized air is sent into the medical area via an air outlet to form a quasi-laminar air flow pattern. By application of the ventilation apparatus, the cleanliness of the medical area can be ensured.

Abstract translation: 用于形成无菌医疗区域的通气装置主要包括用于使空气通风的操作模块。 用于确保空气清洁度的装置包括用于过滤空气中的灰尘和颗粒的过滤单元和用于消除微生物的灭菌单元。 清洁的无菌空气通过出气口被送入医疗区域，形成准层流气流模式。 通过应用通气装置，可以确保医疗区域的清洁度。

公开(公告)号：US20090229461A1

公开(公告)日：2009-09-17

申请号：US12404548

申请日：2009-03-16

Applicant: MING-SHAN JENG ,  MING-SHIANN SHIH ,  JAU-CHYN HUANG ,  YU-LI LIN ,  YA-WEN CHOU ,  TING-WEI HUANG ,  YU-MING CHANG

Inventor： MING-SHAN JENG ,  MING-SHIANN SHIH ,  JAU-CHYN HUANG ,  YU-LI LIN ,  YA-WEN CHOU ,  TING-WEI HUANG ,  YU-MING CHANG

IPC: B01D53/04 ,  F25D23/00 ,  F25D17/06

CPC classification number: F24F3/1423 ,  B01D53/0438 ,  B01D53/06 ,  B01D53/261 ,  B01D2259/40096 ,  F24F2203/1032 ,  F24F2203/106 ,  F24F2203/1068 ,  F24F2203/1084

Abstract: A method and an apparatus for desorption and a dehumidifier are provided in the present invention, in which an electrical potential is applied to electrodes disposed on both ends of an absorbing material so as to desorb the substances absorbed within the absorbing material whereby the absorbing material is capable of being maintained for cycling the absorbing operation. By means of the method and the apparatus of the present invention, the desorbing efficiency can be enhanced and the energy consumption can be reduced during desorption.

Abstract translation: 在本发明中提供了一种用于解吸的方法和装置以及除湿器，其中对设置在吸收材料的两端的电极施加电势，以将吸收材料中吸收的物质解吸，从而吸收材料为 能够维持循环吸收操作。 通过本发明的方法和装置，可以提高解吸效率，并且在解吸时能够降低能量消耗。

公开(公告)号：US07062921B2

公开(公告)日：2006-06-20

申请号：US10330140

申请日：2002-12-30

Applicant: Ming-Shan Jeng ,  Ya-Wen Chou

Inventor： Ming-Shan Jeng ,  Ya-Wen Chou

IPC: F25B9/00 ,  F01B29/10

CPC classification number: F25B9/145 ,  F25B9/14 ,  F25B2309/003 ,  F25B2309/1403 ,  F25B2309/1412 ,  F25B2309/1416 ,  F28D7/005 ,  F28D7/0058

Abstract: A multi-stage thermoacoustic device includes a resonance tube mounted therein a plurality of stacks and a plurality of heat exchangers interlaid with each other adjacent to a second end of the resonance tube. A working fluid is filled in the resonance tube. A driver mounted on a first end of the resonance tube drives the working fluid oscillate in the resonance tube, the working fluid is compressed and expanded and causes temperature oscillation and thermal energy flowing from one end of the stack to the other end. The thermal energy, such as cooling capacity, is finally transferred outward through the heat exchangers on sides of the stacks. The multiple stacks and heat exchangers perform a multiple stage temperature gradient. More thermal energy is transferred, and the working efficiency is improved.

Abstract translation: 多级热声装置包括安装有多个堆叠的共振管和彼此相邻的多个热交换器，该多个热交换器邻近共振管的第二端。 工作流体填充在共振管中。 安装在谐振管的第一端的驱动器驱动谐振管中的工作流体振荡，工作流体被压缩和膨胀，并导致温度振荡和热能从堆叠的一端流到另一端。 热能，例如冷却能力，最终通过堆叠侧面的热交换器向外传递。 多个堆叠和热交换器执行多级温度梯度。 传递更多的热能，提高工作效率。

公开(公告)号：US08535838B2

公开(公告)日：2013-09-17

申请号：US12847585

申请日：2010-07-30

Applicant: Jie-Ren Ku ,  Chan-Li Hsueh ,  Ya-Yi Hsu ,  Fang-hei Tsau ,  Reiko Ohara ,  Shing-Fen Tsai ,  Chien-Chang Hung ,  Ming-Shan Jeng ,  Cheng-Yen Chen

Inventor： Jie-Ren Ku ,  Chan-Li Hsueh ,  Ya-Yi Hsu ,  Fang-hei Tsau ,  Reiko Ohara ,  Shing-Fen Tsai ,  Chien-Chang Hung ,  Ming-Shan Jeng ,  Cheng-Yen Chen

IPC: H01M8/06

CPC classification number: H01M8/04089 ,  H01M8/04201 ,  H01M8/04208 ,  H01M8/04216 ,  H01M8/065 ,  H01M8/0687 ,  H01M2008/1095

Abstract: A power supply device is provided. The power supply device includes a fuel cell, a hydrogen generator, a check valve and an exhaust valve. The fuel cell has a hydrogen inlet and a hydrogen outlet. The hydrogen generator is connected to the hydrogen inlet and used for generating hydrogen. The check valve is disposed in the hydrogen inlet and used for preventing the hydrogen within the fuel cell from flowing to the hydrogen generator, and preventing exterior air from entering the fuel cell. The exhaust valve is disposed in the hydrogen outlet for exhausting the hydrogen within the fuel cell.

Abstract translation: 提供电源装置。 电源装置包括燃料电池，氢发生器，止回阀和排气阀。 燃料电池具有氢气入口和氢气出口。 氢气发生器连接到氢气入口并用于产生氢气。 止回阀设置在氢气入口中，用于防止燃料电池内的氢气流入氢气发生器，并防止外部空气进入燃料电池。 排气阀设置在氢气出口中，用于排出燃料电池内的氢气。

公开(公告)号：US08043414B2

公开(公告)日：2011-10-25

申请号：US12404548

申请日：2009-03-16

Applicant: Ming-Shan Jeng ,  Ming-Shiann Shih ,  Jau-Chyn Huang ,  Yu-Li Lin ,  Ya-Wen Chou ,  Ting-Wei Huang ,  Yu-Ming Chang

Inventor： Ming-Shan Jeng ,  Ming-Shiann Shih ,  Jau-Chyn Huang ,  Yu-Li Lin ,  Ya-Wen Chou ,  Ting-Wei Huang ,  Yu-Ming Chang

IPC: B01D53/06 ,  B01D53/26

CPC classification number: F24F3/1423 ,  B01D53/0438 ,  B01D53/06 ,  B01D53/261 ,  B01D2259/40096 ,  F24F2203/1032 ,  F24F2203/106 ,  F24F2203/1068 ,  F24F2203/1084

Abstract: A method and an apparatus for desorption and a dehumidifier are provided in the present invention, in which an electrical potential is applied to electrodes disposed on both ends of an absorbing material so as to desorb the substances absorbed within the absorbing material whereby the absorbing material is capable of being maintained for cycling the absorbing operation. By means of the method and the apparatus of the present invention, the desorbing efficiency can be enhanced and the energy consumption can be reduced during desorption.

Abstract translation: 在本发明中提供了一种用于解吸的方法和装置以及除湿器，其中对设置在吸收材料的两端的电极施加电势，以将吸收材料中吸收的物质解吸，从而吸收材料为 能够维持循环吸收操作。 通过本发明的方法和装置，可以提高解吸效率，并且在解吸时能够降低能量消耗。

公开(公告)号：US07959898B2

公开(公告)日：2011-06-14

申请号：US12493014

申请日：2009-06-26

Applicant: Chan-Li Hsueh ,  Jie-Ren Ku ,  Ya-Yi Hsu ,  Shing-Fen Tsai ,  Reiko Ohara ,  Chien-Chang Hung ,  Cheng-Yen Chen ,  Ming-Shan Jeng ,  Fanghei Tsau

Inventor： Chan-Li Hsueh ,  Jie-Ren Ku ,  Ya-Yi Hsu ,  Shing-Fen Tsai ,  Reiko Ohara ,  Chien-Chang Hung ,  Cheng-Yen Chen ,  Ming-Shan Jeng ,  Fanghei Tsau

IPC: F17C11/00

CPC classification number: H01M8/04216 ,  H01M8/065 ,  Y02E60/362

Abstract: Disclosed is super water absorbent polymers applied to contain water, and the polymers may further collocate with water absorbent cotton materials to accelerate water absorbent rates. The described water absorbent materials are combined with solid hydrogen fuel to complete a stable hydrogen supply device. Performance of the hydrogen supply device is not effected by inverting or tilting thereof. Even if inverting or tilting the device, the water contained in the water absorbent materials does not flow out from the device. As such, the MEA film in the fuel cell connected to the hydrogen supply device will not blocked by the water, thereby avoiding the fuel cell performance degradation even breakdown.

Abstract translation: 公开了应用于含水的超吸水性聚合物，并且聚合物可以进一步与吸水棉材料搭配以加速吸水率。 所描述的吸水材料与固体氢燃料组合以完成稳定的氢气供应装置。 氢供给装置的性能不受其倒转或倾斜的影响。 即使翻转或倾斜装置，吸水材料中所含的水也不会从装置中流出。 因此，与氢供给装置连接的燃料电池中的MEA膜不会被水堵塞，从而避免燃料电池的性能下降甚至破坏。

公开(公告)号：US20100304238A1

公开(公告)日：2010-12-02

申请号：US12721713

申请日：2010-03-11

Applicant: Jie-Ren Ku ,  Shing-Fen Tsai ,  Ya-Yi Hsu ,  Chan-Li Hsueh ,  Ming-Shan Jeng ,  Fanghei Tsau

Inventor： Jie-Ren Ku ,  Shing-Fen Tsai ,  Ya-Yi Hsu ,  Chan-Li Hsueh ,  Ming-Shan Jeng ,  Fanghei Tsau

IPC: H01M8/06 ,  C10L5/00

CPC classification number: C10L8/00 ,  C01B3/065 ,  C01B2203/066 ,  C10L5/366 ,  Y02E60/362

Abstract: A solid hydrogen fuel, in a form of a solid block, includes at lease a hydride powder well-mixed with at lease a solid catalyst. Method of manufacturing the solid hydrogen fuel includes steps of well-mixing the hydride powder and the solid catalyst; and compressing the mixed powders to form a solid block. When use of the solid hydrogen fuel is required, water is mixed into the hydride powder for generating hydrogen gas, wherein the hydride powder is catalyzed by the solid catalyst and reacts with water to generate hydrogen gas. By using the solid hydrogen fuel, large amount of hydrogen gas can be generated completely in an effective time.

Abstract translation: 以固体块形式的固体氢燃料至少包含与至少固体催化剂充分混合的氢化物粉末。 制备固体氢燃料的方法包括将氢化物粉末和固体催化剂充分混合的步骤; 并压缩混合粉末以形成固体块。 当需要使用固体氢燃料时，将水混合到用于产生氢气的氢化物粉末中，其中氢化物粉末由固体催化剂催化并与水反应以产生氢气。 通过使用固体氢燃料，可以在有效时间内完全产生大量氢气。