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    • 5. 发明申请
    • PROCESS FOR THE SEPARATION OF AIR BY CRYOGENIC DISTILLATION
    • 通过低温蒸馏分离空气的方法
    • US20130255313A1
    • 2013-10-03
    • US13433352
    • 2012-03-29
    • Bao HAJean-Renaud BRUGEROLLE
    • Bao HAJean-Renaud BRUGEROLLE
    • F25J3/04
    • F25J3/04054F25J3/0409F25J3/04175F25J3/04296F25J3/04303F25J3/04393F25J3/04412F25J2290/10
    • A process for separation of air by cryogenic distillation, including cooling a first purified feed air stream in a heat exchanger, thereby producing a cooled first feed stream, removing a first portion from the heat exchanger at a first intermediate temperature, and compressing the cooled first portion in a first booster compressor, cooling the compressed first portion in the heat exchanger, thereby producing a cooled first portion, removing a second portion from the heat exchanger at a second intermediate temperature, and compressing the cooled second portion in a second booster compressor, cooling the compressed second portion in the heat exchanger, thereby producing a cooled second portion, and vaporizing a pressurized liquid stream from the column system in the heat exchanger at a vaporization temperature to form a pressurized gaseous product stream, wherein, both the first discharge temperature and said second discharge temperature are below −55° C.
    • 一种通过低温蒸馏分离空气的方法,包括冷却热交换器中的第一纯化进料空气流,从而产生冷却的第一进料流,在第一中间温度下从热交换器中除去第一部分,并将冷却的第一 冷却第一增压压缩机中的压缩的第一部分,从而产生冷却的第一部分,在第二中间温度下从热交换器中除去第二部分,并在第二增压压缩机中压缩冷却的第二部分, 冷却热交换器中的压缩的第二部分,从而产生冷却的第二部分,并且在蒸发温度下将来自热交换器中的塔系统的加压液体物流蒸发以形成加压的气态产物流,其中,第一排出温度 并且所述第二排出温度低于-55℃。
    • 9. 发明申请
    • THERMAL INTEGRATION OF OXYGEN PLANTS
    • 氧化植物的热集成
    • US20090178408A1
    • 2009-07-16
    • US12171766
    • 2008-07-11
    • Jean-Renaud BrugerolleBao Ha
    • Jean-Renaud BrugerolleBao Ha
    • F01K13/00F23L7/00
    • F25J3/04181F01K7/40F25J3/04018F25J3/0406F25J3/04212F25J3/04303F25J3/04309F25J3/04448F25J3/04527F25J3/04533F25J3/04557F25J3/04581F25J3/04612F25J3/04618F25J2200/20F25J2200/50F25J2205/70F25J2230/06F25J2240/70F25J2245/42F25J2250/50Y02E20/344Y02P80/154
    • A process for the integration of a cryogenic air separation plant and an oxy-combustion power plant is presented. This process includes producing a pressurized nitrogen stream and a pressurized oxygen stream within said cryogenic air separation plant. This process also includes burning a fuel stream thereby generating a steam stream from a boiler feed water stream, wherein said stream is used for work expansion within said oxy-combustion power plant. This process also includes heating said pressurized nitrogen stream and said pressurized oxygen stream with a compressed air stream that is extracted from the air compressor of said cryogenic air separation plant, thereby forming a heated pressurized nitrogen stream and a heated pressurized oxygen stream. This process also includes burning a fuel stream with said heated pressurized oxygen stream to produce a flue gas stream. This process also includes heating said heated pressurized nitrogen stream to form a hot pressurized nitrogen stream. This process also includes work expanding said hot pressurized nitrogen stream to a lower pressure thereby forming a hot exhaust nitrogen stream and recovering energy. And this process also includes heating said boiler feed water stream by indirect heat exchange with said hot exhaust nitrogen stream.
    • 提出了一种低温空气分离装置和氧燃动力装置整合的方法。 该方法包括在所述低温空气分离装置内产生加压氮气流和加压氧气流。 该方法还包括燃烧燃料流,从而从锅炉给水流产生蒸汽流,其中所述流用于所述氧燃烧发电厂内的工作膨胀。 该方法还包括用从低温空气分离装置的空气压缩机中提取的压缩空气流来加热所述加压氮气流和所述加压氧气流,由此形成加热的加压氮气流和加热的加压氧气流。 该方法还包括用所述加热的加压氧气燃烧燃料流以产生烟道气流。 该方法还包括加热所述加热的加压氮气流以形成热的加压氮气流。 该方法还包括将所述热加压氮气流扩展到较低压力的工作,从而形成热排气氮气流并回收能量。 并且该方法还包括通过与所述热排气氮气流间接热交换来加热所述锅炉给水流。
    • 10. 发明申请
    • Cryogenic Air Separation Process and Apparatus
    • 低温空气分离工艺及装置
    • US20080115531A1
    • 2008-05-22
    • US11560641
    • 2006-11-16
    • Bao HaJean-Renaud Brugerolle
    • Bao HaJean-Renaud Brugerolle
    • F25J3/04
    • F25J3/04212F25J3/0406F25J3/0409F25J3/04309F25J3/04351F25J3/04418F25J3/04509F25J3/04515F25J3/04545F25J3/04957F25J3/04969F25J2200/54F25J2230/22F25J2230/24F25J2230/40F25J2250/50
    • A cryogenic process for the production of oxygen by cryogenic distillation using an air separation unit comprising a double column, said double column comprising a high pressure column and a low pressure column comprising the steps of: sending compressed, cooled and purified air to the high pressure column in gaseous form, sending oxygen enriched fluid from the bottom of the high pressure column to the low pressure column, removing nitrogen enriched gas from the top of the high pressure column, sending a first portion of nitrogen enriched gas to a lower reboiler in the low pressure column following compression in a cold compressor having a cryogenic inlet temperature, sending a second portion of nitrogen enriched gas to an upper reboiler in the low pressure column, sending nitrogen enriched liquid from at least one of the first and second reboilers to at least one of the high pressure column and the low pressure column, expanding a stream of nitrogen enriched gas from the high pressure column in an expander following a warming step, driving the cold compressor using a motor and producing oxygen rich gas from the low pressure column by at least one of the steps of removing a gaseous stream and by vaporizing a liquid stream.
    • 一种用于通过使用包括双柱的空气分离单元的低温蒸馏来生产氧气的低温方法,所述双塔包括高压塔和低压塔,其包括以下步骤:将压缩的,冷却和净化的空气送至高压 将富氧流体从高压塔的底部输送到低压塔,从高压塔的顶部除去富氮气体,将第一部分富氮气体送到下层再沸器中 将低压塔压缩在具有低温入口温度的冷压缩机中,将第二部分富氮气体送至低压塔中的上部再沸器,将富氮液体从第一和第二再沸器中的至少一个送至至少 一个高压塔和低压塔,从高压膨胀富氮气流 在升温步骤之后的膨胀器中,通过除去气流和蒸发液体流的至少一个步骤,使用马达驱动冷压缩机并从低压塔产生富氧气体。