AERODYNAMIC CHOPPER FOR GAS FLOW PULSING
    1.
    发明申请
    AERODYNAMIC CHOPPER FOR GAS FLOW PULSING 有权
    用于气体流量脉动的气动切割机

    公开(公告)号:US20120125463A1

    公开(公告)日:2012-05-24

    申请号:US13386867

    申请日:2010-07-22

    CPC classification number: B05B12/06 B05B1/005 B05B1/083 Y10T137/2185

    Abstract: This supersonic pulse flow device is intended to provide a technical solution in a number of fields where the injection of a flow must be pulsed as required by the process or in order to limit the power consumption and size of the pumping means. In the case of flows achieved by means of a Laval nozzle, it is possible to generate a uniform supersonic jet at very low temperature (currently up to 20 K), which is stable over hydrodynamic periods of time between 150 and 1000 microseconds. This device is aimed as solving problems relating to the use of aerodynamic tools in research and development and in industrial processes.

    Abstract translation: 这种超音速脉冲流装置旨在提供一些技术解决方案,其中喷射流必须按照该过程所要求的脉冲或为了限制泵送装置的功率消耗和尺寸。 在通过拉瓦尔喷嘴实现的流动的情况下,可以在非常低的温度(目前高达20K)下产生均匀的超音速射流,其在150和1000微秒之间的流体动力学时间段内是稳定的。 该设备旨在解决与研究和开发中以及工业过程中使用空气动力学工具有关的问题。

    Aerodynamic chopper for gas flow pulsing
    2.
    发明授权
    Aerodynamic chopper for gas flow pulsing 有权
    气流脉动气动斩波器

    公开(公告)号:US08870159B2

    公开(公告)日:2014-10-28

    申请号:US13386867

    申请日:2010-07-22

    CPC classification number: B05B12/06 B05B1/005 B05B1/083 Y10T137/2185

    Abstract: This supersonic pulse flow device is intended to provide a technical solution in a number of fields where the injection of a flow must be pulsed as required by the process or in order to limit the power consumption and size of the pumping means. In the case of flows achieved by means of a Laval nozzle, it is possible to generate a uniform supersonic jet at very low temperature (currently up to 20 K), which is stable over hydrodynamic periods of time between 150 and 1000 microseconds. This device is aimed as solving problems relating to the use of aerodynamic tools in research and development and in industrial processes.

    Abstract translation: 这种超音速脉冲流装置旨在提供一些技术解决方案,其中喷射流必须按照该过程所要求的脉冲或为了限制泵送装置的功率消耗和尺寸。 在通过拉瓦尔喷嘴实现的流动的情况下,可以在非常低的温度(目前高达20K)下产生均匀的超音速射流,其在150和1000微秒之间的流体动力学时间段内是稳定的。 该设备旨在解决与研究和开发以及工业过程中使用空气动力学工具有关的问题。

    Process and device for separating isotopes from a gas flow
    3.
    发明授权
    Process and device for separating isotopes from a gas flow 有权
    用于从气流中分离同位素的方法和装置

    公开(公告)号:US09421497B2

    公开(公告)日:2016-08-23

    申请号:US14123499

    申请日:2012-05-31

    Abstract: A method for the isotopic separation of at least two different isotopes of a body in gaseous form by: (a) converting into the form of a gas (SF6, UF6 or MoF6) the body of interest containing the sought isotope; (b) creating a flow of said gas at supersonic speed, of the laminar or slightly turbulent type; (c) exciting the molecules by laser; (d) inhibiting, by means of a laser, the nucleation of one of the isotopologs, thus forming less massive aggregates of said isotopolog than the aggregates formed by the molecules of the other isotopolog; (e) ionizing the molecules and aggregates of said gas; (f) submitting the ionized molecules and aggregates of molecules to an electromagnetic field to make the ionized molecules and aggregates of one of the isotopologs migrate towards the outside of the flow; and (g) retrieving the part of the gas flow with the highest concentration in the sought isotope.

    Abstract translation: 一种用于通过以下方式对气体形式的身体至少两种不同同位素同位素分离的方法:(a)将含有所寻求的同位素的感兴趣体转化为气体(SF6,UF6或MoF6)的形式; (b)以超音速产生层流或微湍流型气体的流动; (c)通过激光激发分子; (d)通过激光来抑制其中一种同位素的成核,从而与由另一种同位素分子形成的聚集体形成较少的所述同位素聚集体; (e)电离所述气体的分子和聚集体; (f)将离子化的分子和聚集的分子提交到电磁场以使离子化的分子和其中一个同位素的聚集体向流动的外部迁移; 和(g)在所寻求的同位素中回收具有最高浓度的气流的一部分。

    Process and Device for Separating Isotopes from a Gas Flow
    4.
    发明申请
    Process and Device for Separating Isotopes from a Gas Flow 有权
    将同位素与气流分离的过程和装置

    公开(公告)号:US20140245885A1

    公开(公告)日:2014-09-04

    申请号:US14123499

    申请日:2012-05-31

    Abstract: A method for the isotopic separation of at least two different isotopes of a body in gaseous form by: (a) converting into the form of a gas (SF6, UF6 or MoF6) the body of interest containing the sought isotope; (b) creating a flow of said gas at supersonic speed, of the laminar or slightly turbulent type; (c) exciting the molecules by laser; (d) inhibiting, by means of a laser, the nucleation of one of the isotopologues, thus forming less massive aggregates of said isotopologue than the aggregates formed by the molecules of the other isotopologue; (e) ionising the molecules and aggregates of said gas; (f) submitting the ionised molecules and aggregates of molecules to an electromagnetic field to make the ionised molecules and aggregates of one of the isotopologues migrate towards the outside of the flow; and (g) retrieving the part of the gas flow with the highest concentration in the sought isotope.

    Abstract translation: 一种用于通过以下方式对气体形式的身体至少两种不同同位素同位素分离的方法:(a)将含有所寻求的同位素的感兴趣体转化为气体(SF6,UF6或MoF6)的形式; (b)以超音速产生层流或微湍流型气体的流动; (c)通过激光激发分子; (d)通过激光来抑制其中一种同位素异构体的成核,从而形成所述同位素的少量聚集体,而不是由其他同位素分子形成的聚集体; (e)电离所述气体的分子和聚集体; (f)将分子的电离分子和聚集体提交到电磁场,以使离子化分子和其中一个同位素的聚集体向流动的外部迁移; 和(g)在所寻求的同位素中回收具有最高浓度的气流的一部分。

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