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    • 92. 发明专利
    • DE69816468D1
    • 2003-08-21
    • DE69816468
    • 1998-09-10
    • LYNNTECH INC
    • CISAR ALAN JWENG DACONGMURPHY J
    • C25B9/17H01M4/86H01M4/88H01M4/92H01M4/96H01M8/04H01M8/10H01M8/24C25B9/00C25B11/03
    • A fuel cell design for use at low pressure. The invention has a reduced number of component parts to reduce fabrication costs, as well as a simpler design that permits the size of the system to be reduced at the same time as performance is being improved. In the present design, an adjacent anode and cathode pair are fabricated using a common conductive element, with that conductive element serving to conduct the current from one cell to the adjacent one. This produces a small and simple system suitable for operating with gas fuels or alternatively directly with liquid fuels, such as methanol, dimethoxymethane, or trimethoxymethane. The use of these liquid fuels permits the storage of more energy in less volume while at the same time eliminating the need for handling compressed gases which further simplifies the fuel cell system. The electrical power output of the design of this invention can be further increased by adding a passage for cooling the stack through contact with a coolant. In particular the invention relates to a low pressure gas electrode, comprising an electrically conducting substrate wherein the substrate comprises at least two opposite faces; a plurality of openings allowing passage from one face to an opposite face, wherein the openings encompass between about 10% and about 90% of the total area of the substrate and an electrically conductive porous material bound to the substrate comprised of a electrically conductive component and a binding component.
    • 98. 发明专利
    • Hypoxia training device
    • GB201900659D0
    • 2019-03-06
    • GB201900659
    • 2017-05-02
    • LYNNTECH INC
    • The present invention includes a device for hypoxia training comprising: one or more electrochemical cells each comprising: a cathode and an anode separated by a proton exchange membrane, each of the anode and cathode in communication with an input and an output, wherein the input of the cathode is in fluid communication with ambient air, and wherein the input of the anode is in fluid communication with a source of liquid water; a power supply connected to the one or more electrochemical cells; and a mask in fluid communication with the output from the cathode of the one or more electrochemical cells, wherein oxygen is removed from the ambient air during contact with the cathode when hydrogen ions separated from liquid water by a catalyst on the anode convert oxygen in the ambient air into water.