摘要:
A power generator 1 includes: a fuel electrode 5 that receives a supply of fuel gas; an air electrode 6 that receives a supply of air; an electrolyte layer 7 disposed in between the fuel electrode 5 and the air electrode 6; a gas flow channel 3 that circulates therein the fuel gas or the air, with the fuel electrode 5 or the air electrode 6 being exposed to at least part of the gas flow channel 3; a porous body 8 filled in the gas flow channel 3; and a porous sheet 9 present in contact with the porous body 8 and the fuel electrode 5 or the air electrode 6, the porous sheet 9 being made of a material having electrical conductivity, the material having pores formed to spread in a uniform manner, the pores being larger in diameter than pores formed in the porous body 8.
摘要:
A particulate film laminating system includes: a nanoparticle generating chamber in which nanoparticles of a metal material are generated; a nanofiber generating chamber in which nanofibers of a resin material are generated; a laminating chamber in which the nanoparticles and the nanofibers are film-formed and laminated on a substrate; a nanoparticle film-forming region configured such that the nanoparticles are film-formed in the laminating chamber; a nanofiber film-forming region configured such that the nanofibers are film-formed in the laminating chamber; a moving unit which moves the substrate between the nanoparticle film-forming region and the nanofiber film-forming region; an exhaust unit which exhausts the laminating chamber; and a coolant-gas introduction unit which introduces coolant gas into each of the nanoparticle generating chamber and the nanofiber generating chamber.
摘要:
A particulate film laminating system includes: a nanoparticle generating chamber in which nanoparticles of a metal material are generated; a nanofiber generating chamber in which nanofibers of a resin material are generated; a laminating chamber in which the nanoparticles and the nanofibers are film-formed and laminated on a substrate; a nanoparticle film-forming region configured such that the nanoparticles are film-formed in the laminating chamber; a nanofiber film-forming region configured such that the nanofibers are film-formed in the laminating chamber; a moving unit which moves the substrate between the nanoparticle film-forming region and the nanofiber film-forming region; an exhaust unit which exhausts the laminating chamber; and a coolant-gas introduction unit which introduces coolant gas into each of the nanoparticle generating chamber and the nanofiber generating chamber.
摘要:
A hydrogen storage alloy comprises a hydrogen storage base formed of a mixture of magnesium and an alloy, such as a magnesium-nickel alloy, a magnesium-titanium alloy, a magnesium-niobium alloy, a magnesium-manganese alloy, or a magnesium-cobalt alloy, and a catalytic layer covering a surface of the base. A hydrogen storage alloy unit includes the hydrogen storage base and a porous body including an assembly of nanofibers. The alloy may be vapor-deposited onto the assembly of nanofibers. The nanofibers may be tangled to provide spaces between the fibers for the passage of hydrogen molecules. The nanofibers in one example are also porous. A catalytic layer of platinum may cover a surface of the hydrogen storage base.
摘要:
A hydrogen storage alloy unit comprises a porous body 7 having a large number of holes (spaces) 9 allowing hydrogen atoms to pass through, and a hydrogen storage alloy covering a surface of the porous body 7, inclusive of surfaces of the holes thereof. The hydrogen storage alloy includes a hydrogen storage base formed of a hydrogen storage material, and a catalytic layer covering a surface of the hydrogen storage base. The porous body 7 is formed of an assembly of hydrogen storage fibers 8 formed by vapor-depositing the hydrogen storage alloy onto nanofibers.
摘要:
A hydrogen storage alloy comprises a hydrogen storage base 2 formed of a mixture of Mg and an alloy (Mg2Ni, for example), and a catalytic layer 3 covering a surface of the hydrogen storage base 2. The hydrogen storage alloy with this structure exhibits both a high ability to store hydrogen and a high ability to cause hydrogen to diffuse in it in the solid state, provided by Mg and Mg2Ni, respectively. Hydrogen absorbed in Mg in one region is passed on to Mg (or Mg2Ni) in another region by virtue of Mg2Ni. Since this movement of hydrogen does not require heat nor pressure, hydrogen can be absorbed at room temperature and atmospheric pressure.
摘要:
A column shift device for an automatic transmission includes a bracket, and a shift piece turnably connected to the bracket through a first pivot. A shift lever is turnably connected to the shift piece through a second pivot located on a plane substantially perpendicular to the first pivot. A shift link is pivoted on the bracket for operation in association with the turning movement of the shift lever about the first pivot to control the automatic transmission. In the device, a spherical joint member is slidably fitted over an outer periphery of an arm shaft fixedly provided on the shift piece and is slidably engaged in a rectilinear guide groove defined in a shift link. When the shift piece is turned about the first pivot, the joint member is moved rectilinearly along the guide groove. Thus, even if the turning angle of the arm shaft is constant, the turning stroke provided to the shift link by the joint member can be increased.
摘要:
Main and subsidiary levers 24 and 25 forming a change lever are intersected and coupled to each other to form a T-shape. A pair of hemispherical bodies forming a fulcrum member are formed, at their coupled end surfaces, with supporting recesses extended in three directions and fitted to outer peripheral surfaces of the intersected main and subsidiary levers. With this arrangement, it is possible to reliably and easily mount the spherical fulcrum member to the change lever.
摘要:
When a drive wheel (3) of a vehicle is driven by a motor generator (10) that operates as a motor, electric power is supplied from a storage battery (20) to the motor generator (10). When the drive wheel (3) is braked by the motor generator (10) that operates as a generator, electric power is supplied from the motor generator (10) to the storage battery (20), and a first thermoelectric conversion element (11) is supplied with electric power from the motor generator (10) to cool the motor generator (10).
摘要:
A hydrogen sensor includes a thin film layer formed on a top surface of a planar optical transmission medium, and a catalyst layer formed on a top surface of the thin film layer. A first interface is created between the planar optical transmission medium and the thin film layer. A substrate is joined to a bottom surface of the planar optical transmission medium so that a second interface is created between the planar optical transmission medium and the substrate. On entering a first end portion of the planer optical transmission medium, light from a light source is spread by an entrance section, and the spread light is transmitted inside the planar optical transmission medium to a second end portion by being reflected by the first and second interfaces alternately. Light exiting from the second end portion is transmitted to an optical sensor by an exit light-collecting section. If the thin film layer is hydrogenated by the catalyst layer contacted by hydrogen, the amount of light reflected from the first interface reduces. Hydrogen gas is detected by the optical sensor detecting such reduction in the amount of light.