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    • 1. 发明授权
    • Electrochemical synthesis of ammonia
    • 电化学合成氨
    • US06881308B2
    • 2005-04-19
    • US10090444
    • 2002-03-04
    • Adrian J. DenvirOliver J. MurphyAlan J. CisarPriscilla RobertsonKyle Uselton
    • Adrian J. DenvirOliver J. MurphyAlan J. CisarPriscilla RobertsonKyle Uselton
    • C25B1/00C25B9/06C25B3/02C25B9/18
    • C25B1/00
    • A method for electrochemical synthesis of ammonia gas comprising providing an electrolyte between an anode and a cathode, providing hydrogen gas to the anode, oxidizing negatively charged nitrogen-containing species present in the electrolyte at the anode to form an adsorbed nitrogen species, and reacting the hydrogen with the adsorbed nitrogen species to form ammonia. Preferably, the hydrogen gas is provided to the anode by passing the hydrogen gas through a porous anode substrate. It is also preferred to produce the negatively charged nitrogen-containing species in the electrolyte by reducing nitrogen gas at the cathode. However, the negatively charged nitrogen-containing species may also be provided by supplying a nitrogen-containing salt, such as lithium nitride, into the molten salt electrolyte mixture in a sufficient amount to provide some or all of the nitrogen consumed in the production of ammonia.
    • 一种用于电化学合成氨气的方法,包括在阳极和阴极之间提供电解质,向阳极提供氢气,在阳极处氧化存在于电解质中的带负电荷的含氮物质以形成吸附的氮物质,并使 氢与吸附的氮物质形成氨。 优选地,通过使氢气通过多孔阳极基板而将氢气提供给阳极。 还优选通过还原阴极处的氮气来在电解质中产生带负电的含氮物质。 然而,带负电的含氮物质也可以通过向熔融盐电解质混合物中提供足够量的含氮盐(例如氮化钠)来提供在氨生产中消耗的一部分或全部氮 。
    • 2. 发明授权
    • Electrochemical synthesis of ammonia
    • 电化学合成氨
    • US07314544B2
    • 2008-01-01
    • US11212038
    • 2005-08-25
    • Oliver J. MurphyAdrian J. DenvirSorin G. TeodorescuKyle B. Uselton
    • Oliver J. MurphyAdrian J. DenvirSorin G. TeodorescuKyle B. Uselton
    • C25B1/00
    • C25B1/00
    • A method for the anodic electrochemical synthesis of ammonia gas. The method comprises providing an electrolyte between an anode and a cathode, providing nitrogen and hydrogen gases to the cathode, oxidizing negatively charged nitrogen-containing species and negatively charged hydrogen-containing species present in the electrolyte at the anode to form adsorbed nitrogen species and adsorbed hydrogen species, respectively, and reacting the adsorbed nitrogen species with the adsorbed hydrogen species to form ammonia. Nitrogen and hydrogen gases may be provided through a porous cathode substrate. The negatively charged nitrogen-containing species in the electrolyte may be produced by reducing nitrogen gas at the cathode and/or by supplying a nitrogen-containing salt, such as lithium nitride, into the molten salt electrolyte. Similarly, the negatively charged hydrogen-containing species in the electrolyte may be produced by reducing hydrogen gas at the cathode and/or by supplying a hydrogen-containing salt, such as lithium hydride, into the molten salt electrolyte.
    • 一种用于阳极电化学合成氨气的方法。 该方法包括在阳极和阴极之间提供电解质,向阴极提供氮气和氢气,在阳极处氧化带负电荷的含氮物质和存在于电解质中的带负电荷的含氢物质以形成吸附的氮物质并吸附 氢物种,并将吸附的氮物质与吸附的氢物质反应形成氨。 可以通过多孔阴极基底提供氮气和氢气。 电解质中带负电的含氮物质可以通过在阴极处还原氮气和/或通过向熔融盐电解质中提供氮化钠等含氮盐来制备。 类似地,电解质中带负电荷的含氢物质可以通过还原阴极处的氢气和/或通过向熔融盐电解质中提供氢化锂等含氢盐来制备。