公开(公告)号：US08258393B2

公开(公告)日：2012-09-04

申请号：US12541981

申请日：2009-08-17

Applicant: Ya-Wen Chou ,  Ming-Shan Jeng ,  Shih-Kuo Wu ,  Chang-Chung Yang ,  Kuei-Chien Chang

Inventor： Ya-Wen Chou ,  Ming-Shan Jeng ,  Shih-Kuo Wu ,  Chang-Chung Yang ,  Kuei-Chien Chang

IPC: H01L35/00

CPC classification number: H01L35/32 ,  H01L35/26

Abstract: A thermoelectric device is provided. The thermoelectric device includes a P-type thermoelectric component, an N-type thermoelectric component, and an electrically conductive layer. Each of the P-type thermoelectric component and the N-type thermoelectric component includes a substrate and a nanowire structure. The conductive layer connects the P-type thermoelectric component set with the N-type thermoelectric component set. The thermoelectric device is adapted for recycling heat generated by the heat source, and for effectively converting the heat into electrical energy.

Abstract translation: 提供了一种热电装置。 该热电元件包括​​P型热电元件，N型热电元件和导电层。 P型热电部件和N型热电部件中的每一个都包括基板和纳米线结构。 导电层将P型热电元件组与N型热电元件组连接起来。 热电装置适用于回收由热源产生的热量，并有效地将热量转换成电能。

公开(公告)号：US08056840B2

公开(公告)日：2011-11-15

申请号：US12488165

申请日：2009-06-19

Applicant: Pei-Shan Yen ,  Chun-Ju Huang ,  Jie-Ren Ku ,  Bin-Hao Chen ,  Ming-Shan Jeng ,  FangHei Tsau ,  Shen-Chuan Lo ,  Tu Chen

Inventor： Pei-Shan Yen ,  Chun-Ju Huang ,  Jie-Ren Ku ,  Bin-Hao Chen ,  Ming-Shan Jeng ,  FangHei Tsau ,  Shen-Chuan Lo ,  Tu Chen

IPC: B02C11/08 ,  B02C21/00 ,  B02C23/00

CPC classification number: B02C17/1875 ,  B01J20/04 ,  B01J20/20 ,  B01J20/205 ,  B01J20/28007 ,  B01J20/3021 ,  B02C23/06 ,  B02C23/24 ,  B22F2999/00 ,  B82Y30/00 ,  C01B3/0021 ,  C01B3/0026 ,  C01B3/0031 ,  C22C1/0408 ,  C22C1/1084 ,  C22C23/00 ,  C22C26/00 ,  C22C2026/002 ,  C22C2202/04 ,  Y02E60/325 ,  Y02E60/327 ,  B22F2201/12 ,  B22F2201/02

Abstract: The invention utilizes a carbon nano material to nanotize a magnesium-based hydrogen storage material, thereby forming single or multiple crystals to enhance the surface to volume ratio and hydrogen diffusion channel of the magnesium-based hydrogen storage material. Therefore, the hydrogen storage material has higher hydrogen storage capability, higher absorption/desorption rate, and lower absorption/desorption temperature.

Abstract translation: 本发明利用碳纳米材料对镁基储氢材料进行纳米化，从而形成单晶或多晶，以提高镁基储氢材料的表面体积比和氢扩散通道。 因此，储氢材料具有较高的储氢能力，较高的吸收/解吸速率和较低的吸收/解吸温度。

公开(公告)号：US20110143235A1

公开(公告)日：2011-06-16

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：US20110142754A1

公开(公告)日：2011-06-16

申请号：US12870301

申请日：2010-08-27

Applicant: Jie-Ren KU ,  Chan-Li HSUEH ,  Cheng-Yen CHEN ,  Ming-Shan JENG ,  Fang-hei TSAU

Inventor： Jie-Ren KU ,  Chan-Li HSUEH ,  Cheng-Yen CHEN ,  Ming-Shan JENG ,  Fang-hei TSAU

IPC: C01B3/06 ,  C01B3/08

CPC classification number: C01B3/065 ,  C01B2203/066 ,  Y02E60/362 ,  Y02E60/364

Abstract: An one-off and adjustment method of hydrogen releasing from chemical hydride. The “one/off” of hydrogen release is controlled by the “contact/non-contact” procedures between the reactants. First, at least a hydride powder, a catalyst powder and a water-containing reactant are provided, and at least any two of three are mixed to form a mixture. Hydrogen gas is generated by adjusting a contact area between the mixture and the remaining one. The hydrogen-releasing reaction is terminated when a non-contacting state between the mixture and the remaining one occurs. Alternatively, an inhibitor or an inhibiting method could be used for suppressing or terminating the hydrogen-releasing reaction. The hydrogen-releasing rate could be controlled and adjusted by the extent of suppression.

Abstract translation: 从化学氢化物释放氢的一次性和调整方法。 氢释放的“一次/关闭”通过反应物之间的“接触/非接触”程序来控制。 首先，提供至少一种氢化物粉末，催化剂粉末和含水反应物，并将三种中的至少任意两种混合以形成混合物。 通过调节混合物和剩余混合物之间的接触面积来产生氢气。 当发生混合物和剩余物质之间的非接触状态时，释放氢反应终止。 或者，可以使用抑制剂或抑制方法来抑制或终止释放氢的反应。 氢释放速率可以通过抑制程度来控制和调节。

公开(公告)号：US20100279183A1

公开(公告)日：2010-11-04

申请号：US12553442

申请日：2009-09-03

Applicant: Jie-Ren KU ,  Chan-Li HSUEH ,  Ya-Yi HSU ,  Cheng-Yen CHEN ,  Shing-Fen TSAI ,  Reiko OHARA ,  FangHei TSAU ,  Chien-Chang HUNG ,  Ming-Shan JENG

Inventor： Jie-Ren KU ,  Chan-Li HSUEH ,  Ya-Yi HSU ,  Cheng-Yen CHEN ,  Shing-Fen TSAI ,  Reiko OHARA ,  FangHei TSAU ,  Chien-Chang HUNG ,  Ming-Shan JENG

IPC: H01M8/10 ,  H01M2/02

CPC classification number: H01M8/065 ,  H01M8/04201 ,  H01M2008/1095

Abstract: Disclosed is a flexible power supply including a hydrogen supply device connected to a flexible fuel cell, wherein the hydrogen supply device includes a moldable hydrogen fuel. In one embodiment, the flexible fuel cell is a sheet structure, and the hydrogen supply device is a flexible flat bag, wherein the fuel cell and the hydrogen supply device are adhered to complete a sheet of a flexible power supply. The sheet of flexible power supply can be put in the pocket of cloth or baggage, or directly sewn on the outside of cap or overcoat.

Abstract translation: 公开了一种柔性电源，包括连接到柔性燃料电池的氢气供应装置，其中氢气供应装置包括可模制的氢燃料。 在一个实施例中，柔性燃料电池是片状结构，氢供给装置是柔性扁平袋，其中燃料电池和氢气供应装置被粘附以完成柔性电源的片材。 柔性电源片可以放在布或行李的口袋里，或直接缝在帽子或外套的外侧。

公开(公告)号：US20100233077A1

公开(公告)日：2010-09-16

申请号：US12472582

申请日：2009-05-27

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: C01B3/04 ,  C10L5/00

CPC classification number: C10L8/00 ,  C01B3/065 ,  C10L5/366 ,  Y02E60/362 ,  Y02E60/364

Abstract: A solid hydrogen fuel is formed into a solid pressure-formed block. The method of manufacturing the solid hydrogen fuel includes following steps. First, at least a hydride powder and at least a hydrogen releasing catalyst powder are mixed well. Next, the mixed powder is bonded into a block by pressure. When in use, the solid hydrogen fuel is mixed with water to produce hydrogen. The hydride powder and water bring about a hydrogen releasing reaction. The hydride releasing catalyst powder is used for catalyzing the hydrogen releasing reaction to produce hydrogen. The solid hydride has higher hydrogen production and can release hydrogen completely.

Abstract translation: 固体氢燃料形成为固体压力成形块。 制造固体氢燃料的方法包括以下步骤。 首先，至少将氢化物粉末和至少一种释放氢的催化剂粉末充分混合。 接下来，通过压力将混合粉末粘合成块。 当使用时，将固体氢燃料与水混合以产生氢。 氢化物粉末和水产生氢释放反应。 氢化物释放催化剂粉末用于催化氢释放反应产生氢气。 固体氢化物具有较高的氢产量，并能完全释放氢。

公开(公告)号：US20100175557A1

公开(公告)日：2010-07-15

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: B01D53/14

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：US06790257B2

公开(公告)日：2004-09-14

申请号：US10339490

申请日：2003-01-10

Applicant: Ming-Shan Jeng ,  Meen-Dau Hoo ,  Juhn-Jie Chen ,  Kuo-Hsiang Yang

Inventor： Ming-Shan Jeng ,  Meen-Dau Hoo ,  Juhn-Jie Chen ,  Kuo-Hsiang Yang

IPC: B01D3704

CPC classification number: B01D46/446 ,  B01D46/46 ,  B01D2279/51 ,  F24F3/161 ,  F24F11/39 ,  F24F11/77 ,  F24F2001/0096

Abstract: An airflow feedback control method and apparatus for fan filter unit (FFU) is proposed, which is designed for use with a fan filter unit that is widely used in semiconductor fabrication factories for dust-clearing purpose, for controlling the fan filter unit to generate a constant amount of airflow equal to a preset desired amount. The proposed FFU airflow feedback control method and apparatus is characterized by that it utilizes bell inlet as an airflow measuring nozzle and that airflow is used as feedback parameter to control the FFU, rather than utilizing motor speed as feedback parameter by prior art. This feature allows the fan filter unit to continuously generate a fixed amount of airflow equal to the preset desired amount even if there is a pressure change at the site of installation, thus lessening the problems of insufficient air change rate and sideward-going airflows.

Abstract translation: 提出了一种用于风扇过滤器单元（FFU）的气流反馈控制方法和装置，其设计用于广泛应用于用于除尘目的的半导体制造工厂中的风扇过滤器单元，用于控制风扇过滤器单元以产生 恒定的气流量等于预设的所需量。 所提出的FFU气流反馈控制方法和装置的特征在于，它利用钟形入口作为气流测量喷嘴，并且使用气流作为反馈参数来控制FFU，而不是利用电机速度作为现有技术的反馈参数。 该特征即使在安装部位存在压力变化的情况下，也能够使风扇过滤器单元连续地产生等于预设所需量的固定量的气流，从而减少空气变换率和侧流气流的问题。

公开(公告)号：US06217281B1

公开(公告)日：2001-04-17

申请号：US09345377

申请日：1999-06-30

Applicant: Ming-Shan Jeng ,  Ya-Wen Chou ,  Fang-Hei Tasu ,  Lai-Fu Chen ,  Pen-Chang Tseng

Inventor： Ming-Shan Jeng ,  Ya-Wen Chou ,  Fang-Hei Tasu ,  Lai-Fu Chen ,  Pen-Chang Tseng

IPC: B01D4610

CPC classification number: F04D29/703 ,  F04D29/664

Abstract: A low-noise fan-filter unit for providing filtered airflow is disclosed. The fan-filter unit includes a housing having at least an air inlet and a coaxial air outlet; a centrifugal fan installed in the housing for drawing air into the housing and propelling it out of the air outlet; a filter installed between the fan and the air outlet for removing impurities from the air; and a noise reduction arrangement installed between the fan and the filter for reducing noise. The noise reduction arrangements includes three parting plates incorporating with the housing to form a tortuous air passageway which U-turns the airflow at least two times. The tortuous and extended air passageway, and some sound-absorbing materials furnished along the air passageway increase the contact area between the airflow and the sound-absorbing materials, and enhance the effect of noise absorption.

Abstract translation: 公开了一种用于提供过滤气流的低噪声风扇过滤器单元。 风扇过滤器单元包括至少具有空气入口和同轴空气出口的壳体; 安装在壳体中的离心式风扇，用于将空气吸入壳体并将其推出出风口; 安装在风扇和空气出口之间的过滤器，用于从空气中除去杂质; 以及安装在风扇和过滤器之间以降低噪音的降噪装置。 降噪装置包括与壳体结合的三个分开板，以形成曲折的空气通道，U形气流至少两次。 曲折的延伸空气通道，以及沿空气通道配置的一些吸声材料增加了气流和吸音材料之间的接触面积，并增强了噪音吸收的作用。

公开(公告)号：US08658055B2

公开(公告)日：2014-02-25

申请号：US12476894

申请日：2009-06-02

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

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

IPC: C01B3/02 ,  C01B3/08 ,  C01B6/21 ,  C09K3/00

CPC classification number: C01B3/065 ,  H01M8/04216 ,  H01M8/065 ,  Y02E60/324 ,  Y02E60/362 ,  Y02E60/364

Abstract: Solid-state hydrogen fuel with a polymer matrix and fabrication methods thereof are presented. The solid-state hydrogen fuel includes a polymer matrix, and a crushed mixture of a solid chemical hydride and a solid-state catalyst uniformly dispersed in the polymer matrix. The fabrication method for the solid-state hydrogen fuel includes crushing and mixing a solid chemical hydride and a solid-state catalyst in a crushing/mixing machine, and adding the polymer matrix into the mixture of the solid chemical hydride and the solid-state catalyst to process a flexible solid-state hydrogen fuel. Moreover, various geometric and/or other shapes may be formed and placed into suitable vessels to react with a particular liquid and provide a steady rate of hydrogen release.

Abstract translation: 提出了具有聚合物基体的固态氢燃料及其制备方法。 固体氢燃料包括聚合物基质和均匀分散在聚合物基质中的固体化学氢化物和固态催化剂的粉碎混合物。 固态氢燃料的制造方法包括在破碎/混合机中破碎混合固体化学氢化物和固态催化剂，并将聚合物基质加入到固体化学氢化物和固态催化剂的混合物中 以处理柔性固态氢燃料。 此外，可以形成各种几何形状和/或其他形状并将其放置在合适的容器中以与特定液体反应并提供稳定的氢释放速率。