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    • 48. 发明授权
    • Purifying apparatus of a particulate trap-type for collecting
particulates in exhaust gas from an engine
    • 用于从发动机收集废气中的微粒的微粒捕获型净化装置
    • US4723973A
    • 1988-02-09
    • US912061
    • 1986-09-26
    • Kazuo OyobeHiroki HoshizakiTerutaka KageyamaHirofumi SuzukiYoshihiko ImamuraKiyoshi KobashiKenichiro TakamaShinichi Takeshima
    • Kazuo OyobeHiroki HoshizakiTerutaka KageyamaHirofumi SuzukiYoshihiko ImamuraKiyoshi KobashiKenichiro TakamaShinichi Takeshima
    • F01N3/027B01D46/00
    • F01N3/027Y10S55/30
    • An exhaust-gas purifying apparatus according to the present invention comprises an exhaust-gas filter for trapping particulates in exhaust gas from an engine, and a heating device located on the upper-course side of the filter, with respect to the flowing direction of the exhaust gas, the heating device including one or more conductive-ceramic heater elements, capable of heating and burning the particulates caught by the filter, and a heater case for holding the heater elements in position, so that the caught particulates are heated and burned by the heater elements when the flow resistance of the exhaust gas, flowing through the filter, is increased by the caught particulates, whereby the flow resistance is reduced. The heater element includes a fixed electrode portion, immovably fixed to the heater case, and a slidable electrode portion held slidably. An electrode member, fixed to the heater case, is brazed to the fixed electrode portion, and the heater element is bonded to the electrode member, so as to be clamped from both sides by solidified molten solder. The slidable electrode portion is supported by the heater case, for sliding motion in the direction of thermal deformation, so that the working life of the heater element is prolonged.
    • 根据本发明的废气净化装置包括用于捕获来自发动机的废气中的微粒的废气过滤器和位于过滤器的上游侧的加热装置,相对于 废气,加热装置包括一个或多个导电陶瓷加热器元件,其能够加热和燃烧由过滤器捕获的微粒,以及用于将加热器元件保持在适当位置的加热器壳体,使得捕获的微粒被加热并被 当流过过滤器的废气的流动阻力被捕获的颗粒增加时,加热器元件增加,从而流动阻力减小。 加热器元件包括不可移动地固定到加热器壳体的固定电极部分和可滑动地保持的可滑动电极部分。 固定在加热器壳体上的电极构件钎焊到固定电极部分,并且加热器元件被接合到电极部件上,以便通过凝固的熔融焊料从两侧夹紧。 可滑动电极部分由加热器壳体支撑,用于沿热变形方向滑动,从而延长加热器元件的使用寿命。
    • 49. 发明授权
    • Hydrogen production process
    • 氢气生产过程
    • US08961922B2
    • 2015-02-24
    • US13996147
    • 2011-12-07
    • Shinichi TakeshimaNorihiko Nakamura
    • Shinichi TakeshimaNorihiko Nakamura
    • C01B3/02C01B3/06C01B17/50
    • C01B3/068C01B17/502C01B17/503Y02E60/36Y02P20/134
    • A method for producing hydrogen from water is provided. The hydrogen production process includes splitting water into hydrogen and oxygen, wherein the process includes decomposing sulfuric acid into water, sulfur dioxide and oxygen through a reaction of formula (X1) by using solar thermal energy, wherein at least a part of the elementary reaction of formula (X1-1) is performed using thermal solar energy, and at least a part of the elementary reaction of formula (X1-2) is performed using additional thermal energy other than solar thermal energy, and wherein the heating temperature by the additional thermal energy is higher by 10° C. or more than the heating temperature by the solar thermal energy, and at least a part of the additional thermal energy is generated in a reaction vessel: (X1) H2SO4→H2O+SO2+1/2O2, (X1-1) H2SO4→H2O+SO3, and (X1-2) SO3→SO2+1/2O2.
    • 提供了一种从水中生产氢的方法。 氢气生产过程包括将水分解成氢气和氧气,其中该方法包括通过使用太阳能热能将式(X 1)的反应将硫酸分解成水,二氧化硫和氧,其中至少一部分基本反应为 使用热太阳能进行式(X1-1),并且使用除了太阳能热能之外的附加热能进行式(X1-2)的至少一部分元素反应,并且其中通过附加热量的加热温度 能量高于10℃或高于太阳热能的加热温度,并且在反应容器中产生至少一部分附加热能:(X1)H 2 SO 4→H 2 O + SO 2 + 1 / 2O 2, (X1-1)H2SO4→H2O + SO3,(X1-2)SO3→SO2 + 1 / 2O2。
    • 50. 发明授权
    • Method and apparatus for producing hydrogen
    • 生产氢气的方法和装置
    • US08951497B2
    • 2015-02-10
    • US12855236
    • 2010-08-12
    • Shinichi Takeshima
    • Shinichi Takeshima
    • C01B3/08C01B3/04C01B13/02
    • C01B3/042C01B13/0207C01B13/0251C01B2210/0046Y02E60/364Y02P20/134
    • In the present invention, a method and apparatus for producing hydrogen by thermochemical water splitting are provided. The method for producing hydrogen of the present invention includes a reduction step of heating a high oxidation state redox material in an inert atmosphere to remove oxygen from the high oxidation state redox material, and thereby obtain a low oxidation state redox material and oxygen; and a hydrogen generation step of bringing water into contact with a low oxidation state redox material to oxidize the low oxidation state redox material and reduce the water, and thereby obtain a high oxidation state redox material and hydrogen. In the method for producing hydrogen of the present invention, the reduction step and the hydrogen generation step are performed switchingly in a same reaction vessel. Further, the apparatus for producing hydrogen of the present invention is used for performing the method for producing hydrogen of the present invention.
    • 在本发明中,提供了一种通过热化学水分解产生氢的方法和装置。 本发明的制造氢的方法包括在惰性气氛中加热高氧化态氧化还原材料以从高氧化态氧化还原材料中除去氧的还原步骤,从而获得低氧化态氧化还原材料和氧; 以及使水与低氧化态氧化还原材料接触以氧化低氧化态氧化还原材料并降低水的氢生成步骤,从而获得高氧化态氧化还原材料和氢。 在本发明的制造氢气的方法中,还原步骤和氢气生成步骤在相同的反应容器中进行切换。 此外,本发明的氢气制造装置用于实施本发明的氢气制造方法。