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    • 62. 发明申请
    • Efficient method and apparatus for generating singlet delta oxygen at an elevated pressure
    • 用于在升高的压力下产生单线态三氧化氮的有效方法和装置
    • US20030227955A1
    • 2003-12-11
    • US10453148
    • 2003-06-03
    • George Emanuel
    • H01S003/22H01S003/223H01S003/095B01J008/04B01J010/00C01B013/00
    • A61L2/186A61L2202/11C01B13/0214
    • An improved singlet delta oxygen generator (SOG) and method of its use are disclosed. The improved SOG is compact and scalable, capable of operating in a zero-gravity or low gravity environment, requires no gaseous diluent or buffer gas, and is capable of operating at pressures as high as one atmosphere. The improved SOG also efficiently utilizes the reactants and produces a O2(1null) stream that is largely free of chlorine and water vapor contamination and therefore does not require a BHP regeneration system or a water vapor trap. When used as part of a COIL system, the SOG may be part of a plenum that directly feeds the laser's nozzle. The close proximity of the SOG to the laser cavity allows operation of the SOG at higher pressures without significant depletion of available O2(1null) through collisional deactivation.
    • 公开了改进的单重态三氧化碳(SOG)及其使用方法。 改进的SOG是紧凑和可扩展的,能够在零重力或低重力环境下操作,不需要气态稀释剂或缓冲气体,并且能够在高达一个大气压的压力下操作。 改进的SOG还有效地利用了反应物并产生了大部分没有氯和水蒸气污染的O 2(1-δ)流,因此不需要BHP再生系统或水蒸气阱。 当用作COIL系统的一部分时,SOG可以是直接馈送激光喷嘴的气室的一部分。 SOG与激光腔的紧密接近允许SOG在更高的压力下运行,而不会通过碰撞失活显着消耗可用的O2(<1>)。
    • 63. 发明申请
    • Fuel reforming system
    • 燃料重整系统
    • US20030194354A1
    • 2003-10-16
    • US10391901
    • 2003-03-20
    • NISSAN MOTOR CO., LTD.
    • Masaru Okamoto
    • B01J008/04G05B001/00G05D021/00
    • C01B3/38B01J19/0013B01J2219/00191C01B3/48C01B3/583C01B2203/0227C01B2203/0283C01B2203/044C01B2203/047C01B2203/1619C01B2203/169
    • A fuel reforming system, comprising a reformer (8) which generates reformate gas containing hydrogen, a carbon monoxide oxidizer (9) containing a carbon monoxide oxidation catalyst which removes carbon monoxide contained in the reformate gas by a shift reaction and a preferential oxidation reaction, and supplies reformate gas from which the carbon monoxide has been removed to the fuel cell (17), and a cooling device (12) which cools the heat liberated by the shift reaction and preferential oxidation reaction in the carbon monoxide oxidizer (9) by a coolant. The controller (31) determines whether the carbon monoxide oxidizer (9) is in a marginal operation state where a processing performance of the carbon monoxide oxidation catalyst has reached its limit, and performs an avoidance processing to avoid the marginal operation state of the carbon monoxide oxidation catalyst.
    • 一种燃料重整系统,包括产生含氢气的重整气体的重整器(一种重铬酸盐),含有一氧化碳氧化催化剂的一氧化碳氧化剂( 9 ),其除去一氧化碳 在重整气体中通过转移反应和优先的氧化反应,并且将一氧化碳从其中除去的重整气体供应到燃料电池( 17 )和冷却装置( 12 ),其通过冷却剂冷却通过转换反应释放的热量和一氧化碳氧化剂中的优先氧化反应( 9 )。 控制器( 31 )确定一氧化碳氧化剂( 9 )是否处于一氧化碳氧化催化剂的加工性能达到极限的边际运行状态,以及 进行避免处理以避免一氧化碳氧化催化剂的边际操作状态。
    • 64. 发明申请
    • Tubular reactor for carrying out exothermic gas phase reactions
    • 用于进行放热气相反应的管式反应器
    • US20030175183A1
    • 2003-09-18
    • US10275204
    • 2002-11-02
    • Friedrich Guetlhuber
    • B01J008/04
    • B01J8/065B01J2208/00212B01J2208/00256B01J2219/00263C07C45/35C07C47/22
    • A tube reactor (2) for performing exothermic gas phase reactions comprising a reaction tube bundle (8), that extends in a sealed manner between two tube end plates (4, 6), that carries a reaction gas and is surrounded by a heat carrier inside a surrounding reactor shell (10). The tube reactor also includes a cowl (18, 20) that spans the respective tube plates (4, 6) and is connected to a gas inlet and a gas discharge line, respectively. Inside the cowl (18) on the gas inlet side adjacent to a first gas supply chamber (28), connected to the inside of the reaction tubes (16), is located a separately fed second gas supply chamber (30) with its own tube end plate (32) that is connected to separate gas supply tubes (34) suitable for a second reaction gas. The separate gas supply tubes reach into the gas inlet end or reach to directly before the gas inlet ends of the reaction tubes (16). This avoids early admixing of an explosion-critical reactant into the reaction gas stream using relatively simple and practical means of construction, which in turn improves the ability to load the reaction gas stream with this reactant.
    • 一种用于进行放热气相反应的管式反应器(2),包括反应管束(8),该反应管束(8)以密封方式在两个管端板(4,6)之间延伸,所述反应管束携带反应气体并被热载体 在周围的反应器壳体(10)内。 管式反应器还包括跨过各个管板(4,6)并连接到气体入口和气体排放管线的整流罩(18,20)。 在连接到反应管(16)内部的与第一气体供应室(28)相邻的气体入口侧的整流罩(18)内,位于具有自己的管的分开供给的第二气体供给室(30) 端板(32),其连接到适合于第二反应气体的分离的气体供应管(34)。 单独的气体供应管到达气体入口端或者直接在反应管(16)的气体入口端之前到达。 这避免了使用相对简单和实用的施工方法将爆炸关键反应物早期混合到反应气流中,这进一步提高了与该反应物一起加载反应气流的能力。
    • 68. 发明申请
    • Bayer causticisation
    • 拜尔苛化
    • US20030129125A1
    • 2003-07-10
    • US10281190
    • 2002-10-28
    • Steven Philip RosenbergDarrel James WilsonCatherine Ann Heath
    • C01F007/16B01J008/04
    • C01F7/0633C01F7/473
    • An improved process for the causticisation of Bayer liquors in an alumina refinery, the process including the steps of reacting lime with aluminate ions in a Bayer liquor within a primary reactor under controlled conditions of low to moderate temperature (between 70-80null C.) and agitation, to form substantially only a hydrocalumite species and hydroxyl ions; and a secondary reactor wherein the hydrocalumite species formed is subjected to heating in contact with a Bayer liquor under controlled conditions so as to cause the hydrocalumite species to react with the liquor to form calcium carbonate, aluminate ions and hydroxyl ions, whereby a causticised Bayer liquor is obtained and wherein the efficiency of lime utilization is substantially increased and/or alumina losses are minimized.
    • 一种用于氧化铝精炼厂中拜耳液体的苛化的改进方法,该方法包括以下步骤:在低温至中等温度(70-80℃)的受控条件下,在初级反应器内的拜耳液体中使石灰与铝酸根离子反应 并搅拌,基本上只形成一个水煤白质和羟基离子; 以及二次反应器,其中形成的氢钙土矿物质在受控条件下与拜耳液体接触进行加热,以使得水煤灰物质与液体反应形成碳酸钙,铝酸根离子和羟基离子,由此将苛化的拜耳液 并且其中石灰利用的效率显着增加和/或氧化铝损失最小化。