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    • 1. 发明申请
    • METHOD OF AND APPARATUS FOR NUCLEAR TRANSFORMATION
    • 用于核变换的方法和装置
    • US20130188763A1
    • 2013-07-25
    • US13811078
    • 2011-07-20
    • Tadahiko MizunoYasuo Ishikawa
    • Tadahiko MizunoYasuo Ishikawa
    • G21G7/00G21B3/00
    • G21G7/00G21B3/00G21B3/002
    • Nuclear transformation method and apparatus can produce thermal energy and hydrogen with a simple structure. A reaction cell, made of metal material like iron, from which oxygen is discharged is heated by a heater at a temperature above 500° C. Water is supplied into the reaction cell to be changed into steam which reacts on the inner wall of the reaction cell to produce hydrogen and thermal energy through a nuclear transformation. In the case that a reaction agent (NaOH, K2TiO3) which includes at least alkaline metal and oxygen is accommodated in the reaction cell, a nuclear reaction occurs without the supply of water. Steam may be supplied into the reaction cell to activate the nuclear reaction and fins t 124 as a metal element supplying body may be accommodated in the
    • 核转化方法和装置可以以简单的结构产生热能和氢。 将由氧气排出的金属材料制成的反应池由加热器在500℃以上的温度下加热。向反应池供应水以变成在反应的内壁上反应的蒸汽 细胞通过核转化产生氢和热能。 在反应池中容纳有至少含有碱金属和氧的反应剂(NaOH,K 2 TiO 3)的情况下,不产生水而发生核反应。 可以将蒸汽供应到反应池中以激活核反应,并且作为金属元件供给体的翅片t 124可以容纳在该反应池中
    • 3. 发明申请
    • DISTRIBUTED STORAGE SYSTEM
    • 分布式存储系统
    • US20100115078A1
    • 2010-05-06
    • US12531625
    • 2007-07-21
    • Yasuo IshikawaKizuki Fukuda
    • Yasuo IshikawaKizuki Fukuda
    • G06F15/173G06F15/16
    • G06F16/10G06F3/0614G06F3/0635G06F3/067H04L41/0893
    • Provided is a distributed storage system capable of improving reliability and continuous operability while minimizing increases in management workload. A distributed storage system (100) includes storage devices (31 to 39) that store data and interface processors (21 to 25) that control the storage devices (31 to 39) in accordance with requests from a user terminal (10). Each of the storage devices (31 to 39) and the interface processors (21 to 25) store therein a node list containing an IP address of at least one of the storage devices (31 to 39). The interface processors (21 to 29) control the storage devices (31 to 39) based on the node lists. Each of the storage devices (31 to 39) make a request for the node list to a different interface processor every time. The interface processor that has received the request adds, to its own node list, the IP address of the storage device that has made the request.
    • 提供了一种分散存储系统,其能够在最小化管理工作量的增加的同时,提高可靠性和连续可操作性。 分布式存储系统(100)包括存储根据来自用户终端(10)的请求来控制存储设备(31至39)的数据和接口处理器(21至25)的存储设备(31至39)。 每个存储设备(31至39)和接口处理器(21至25)在其中存储包含至少一个存储设备(31至39)的IP地址的节点列表。 接口处理器(21〜29)基于节点列表来控制存储装置(31〜39)。 每个存储设备(31至39)每次都向不同的接口处理器请求节点列表。 接收到该请求的接口处理器将自己的节点列表中的请求的存储设备的IP地址添加到其自身的节点列表中。
    • 8. 发明授权
    • Method of generating hydrogen
    • 产生氢的方法
    • US09376317B2
    • 2016-06-28
    • US14465274
    • 2014-08-21
    • Yasuo Ishikawa
    • Yasuo Ishikawa
    • C01B3/10C01B3/04
    • C01B3/10C01B3/045C01B2203/0805Y02E60/364
    • A catalyst has a long life span and efficiently separates hydrogen from water. A first metal element (Ni, Pd, Pt) for cutting the combination of hydrogen and oxygen and a second metal element (Cr, Mo, W, Fe) for helping the function of the first metal element are melted in alkaline metal hydroxide or alkaline earth metal hydroxide to make a mixture heated at a temperature above the melting point of the hydroxide to eject fine particles from the liquid surface, bringing steam into contact with the fine particles. Instead of this, a mixture of alkaline metal hydroxide and metal oxide is heated at a temperature above the melting point of the alkaline metal hydroxide to make metal compound in which at least two kinds of metal elements are melted, and fine particles are ejected from the surface of the metal compound to be brought into contact with steam.
    • 催化剂寿命长,有效地将氢与水分离。 用于切割氢和氧的组合的第一金属元素(Ni,Pd,Pt)和用于帮助第一金属元素的功能的第二金属元素(Cr,Mo,W,Fe)在碱金属氢氧化物或碱 使混合物在高于氢氧化物熔点的温度下加热混合物,从液面喷出细小颗粒,使蒸汽与微粒接触。 代替这样,将碱金属氢氧化物和金属氧化物的混合物在高于碱金属氢氧化物的熔点的温度下加热,从而使至少两种金属元素熔化的金属化合物,从 要与蒸汽接触的金属化合物的表面。