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    • 2. 发明申请
    • FOAMING OF LIQUIDS
    • 液体泡沫
    • US20150130091A1
    • 2015-05-14
    • US14516040
    • 2014-10-16
    • David LivshitsLester Teichner
    • David LivshitsLester Teichner
    • B01F5/06B01F3/04B01F3/08
    • B01F5/0603B01F3/04992B01F3/0865B01F3/088B01F15/00207B01F2215/0052B03D1/028B03D1/1412B03D1/1462B03D1/1493B03D1/24B03D1/242B08B3/102C02F1/24
    • A foaming mechanism configured to receive a plurality of streams of gas and generate a foamed liquid, having an aerodynamic component and an aerodynamic housing disposed around at least a portion of the aerodynamic component. The aerodynamic housing includes a plurality of first channels and a plurality of second channels connected to the plurality of first channels at regular intervals on a distributed plane. The distributed plane is about perpendicular to the plurality of first channels, wherein the plurality of first channels and the plurality of second channels are configured to transform an axial stream of the gaseous working agent into a plurality of radial high-speed streams of the gaseous working agent by channeling the gaseous working agent through the plurality of first channels and into the plurality of second channels on the distributed plane. A hydrodynamic conical reflector and a hydrodynamic housing form a ring channel in an area between the hydrodynamic conical reflector and the hydrodynamic housing. An accumulation mechanism is configured to disperse the plurality of radial highspeed streams of the gaseous working agent into the ring channel and create turbulence to foam the liquid.
    • 一种发泡机构,其构造成接收多个气流并产生泡沫液体,其具有空气动力学部件和围绕所述空气动力学部件的至少一部分设置的空气动力学壳体。 空气动力学壳体包括多个第一通道和在分布式平面上以规则间隔连接到多个第一通道的多个第二通道。 所述分布式平面垂直于所述多个第一通道,其中所述多个第一通道和所述多个第二通道被配置成将所述气态工作剂的轴向流转换成气态工作的多个径向高速流 通过将气态工作剂引导通过多个第一通道并进入分布平面上的多个第二通道中。 流体动力锥形反射器和流体动力壳体在流体动力学锥形反射器和流体动力壳体之间的区域中形成环形通道。 累积机构构造成将气态工作剂的多个径向高速流分散到环形通道中并产生湍流以使液体发泡。
    • 3. 发明申请
    • EMULSION, APPARATUS, SYSTEM AND METHOD FOR DYNAMIC PREPARATION
    • 乳液,装置,系统和动态制备方法
    • US20120085428A1
    • 2012-04-12
    • US13294737
    • 2011-11-11
    • David LivshitsLester Teichner
    • David LivshitsLester Teichner
    • B67D7/72
    • F23K5/10B01F3/0446B01F5/0466C10L1/328F23K5/12Y10T137/2931
    • The invention relates to a fluid composite, a device for producing the fluid composite, and a system for producing an aerated fluid composite therewith, and more specifically a fluid composite made of a fuel and its oxidant for burning as part of different systems such as fuel burners or combustion chambers and the like. The invention also relates to an emulsion, an apparatus for producing an emulsion, a system for producing an emulsion with the apparatus for producing the emulsion, a method for producing a dynamic preparation with the emulsion, and more specifically to a new type of a stable liquid/liquid emulsion in the field of colloidal chemistry, such as a water/fuel or fuel/fuel emulsion for all spheres of industry.
    • 本发明涉及一种流体复合材料,一种用于生产流体复合材料的装置,以及一种用于生产充气流体复合材料的系统,更具体地说,一种由燃料及其氧化剂制成的流体复合材料,作为不同系统如燃料的一部分燃烧 燃烧器或燃烧室等。 本发明还涉及乳液,用于生产乳液的设备,用于生产乳液的设备的乳液的制备方法,用于制备具有乳液的动态制剂的方法,更具体地说,涉及一种新型的稳定剂 胶体化学领域的液体/液体乳液,例如用于所有工业领域的水/燃料或燃料/燃料乳液。
    • 6. 发明授权
    • Fluid mixer with internal vortex
    • 具有内部涡流的流体混合器
    • US09144774B2
    • 2015-09-29
    • US12886318
    • 2010-09-20
    • David LivshitsLester Teichner
    • David LivshitsLester Teichner
    • B01F5/04B01F3/04B08B3/04B01F15/02B01F5/02B01F5/00
    • B01F3/04446B01F3/0446B01F5/0206B01F2005/0017
    • The present disclosure generally relates to a fluid mixer, a system for mixing fluids utilizing the fluid mixer, and a method of mixing fluids using the fluid mixer or the system for mixing fluids, and more specifically, to a compact static mixing device with no moving parts and capable of mixing any fluid, such as air, nitrogen gas, water, oil, polluted water, and the like. A first pressurized, incoming fluid is accelerated locally by a section reduction, is split into streams, and then is released into a second fluid found in a closed volume or an open volume after a period of stabilization. The directed and controlled first fluid slides along an insert up to directional and angled fins at a vortex creator where suction forces from a self-initiating vortex in an internal cavity draws in at least part of the first fluid to fuel the vortex. The compactness and simplicity of the fluid mixer with internal vortex can be used alone within a closed volume in a conduit, in a sprayer, or within a fixed geometry to direct the mixing vortex to specific dimensions. One or more fluid mixers can also be used in an open volume such as a reservoir, a tank, a pool, or any other fluid body to conduct mixing. The technology alone, as part of a multimixer system, or as a method of mixing using the fluid mixer with internal vortex is contemplated to be used in any field where mixing occurs.
    • 本公开一般涉及流体混合器,使用流体混合器混合流体的系统,以及使用流体混合器或用于混合流体的系统混合流体的方法,更具体地涉及一种不移动的紧凑型静态混合装置 零件,并能够混合任何流体,如空气,氮气,水,油,污水等。 第一加压进入流体通过部分减少局部加速,被分裂成流,然后在稳定期后被释放到在封闭体积或开放体积中发现的第二流体。 定向和受控的第一流体沿着插入件滑动到涡流产生器处的定向和成角度的翅片,其中来自内部空腔中的自启动涡流的吸力吸入至少部分第一流体以燃料涡流。 具有内部涡流的流体混合器的紧凑性和简单性可以在管道,喷雾器中或在固定几何形状内的封闭体积内单独使用,以将混合涡流引导到特定尺寸。 一个或多个流体混合器也可以用于开放的容积,例如储存器,罐,池或任何其它流体中以进行混合。 作为多重混合器系统的一部分的技术或作为使用流体混合器与内部涡流进行混合的方法,可以用于任何混合发生的领域。
    • 8. 发明申请
    • ENGINE WITH INTEGRATED MIXING TECHNOLOGY
    • 发动机与综合混合技术
    • US20120103306A1
    • 2012-05-03
    • US13294591
    • 2011-11-11
    • David LivshitsLester Teichner
    • David LivshitsLester Teichner
    • F02M57/04F02M63/00
    • F02B43/10F02M26/19F02M29/06F02M31/0825Y02T10/126Y02T10/32
    • The present disclosure generally relates to an engine with an integrated mixing of fluids (gas or liquid) device and associated technology for improvement of the efficiency of the engine, and more specifically to an engine equipped with a fuel mixing device for improvement of the overall properties of the system with an engine by either inline oxygenation of the liquid or dynamic activation of a fuel with a secondary fluid such as water resulting in a change in property of the input fluid to help with burning ratios, cooling for improved combustion, or the use of re-circulation of exhaust from the engine to further improve engine efficiency and reduce/recycle unwanted emissions or combustion releases such as water.
    • 本公开总体上涉及具有用于提高发动机效率的流体(气体或液体)装置和相关技术的综合混合的发动机,更具体地涉及配备有用于改善整体性能的燃料混合装置的发动机 通过液体的在线氧化或用二次流体(例如水)动态激活燃料,导致系统的发动机,导致输入流体的性质改变以帮助燃烧比,用于改善燃烧的冷却或使用 从发动机再循环排气,以进一步提高发动机效率,并减少/回收不需要的排放物或诸如水的燃烧排放。
    • 10. 发明授权
    • Fluid composite, device for producing thereof and system of use
    • 流体复合材料,其制造装置和使用系统
    • US08715378B2
    • 2014-05-06
    • US12859121
    • 2010-08-18
    • David LivshitsLester Teichner
    • David LivshitsLester Teichner
    • C10L5/00
    • F23K5/10B01F3/04099Y10T137/87652
    • The current disclosure relates to a new fluid composite, a device for producing the fluid composite, and a method of production therewith, and more specifically a fluid composite made of a fuel and its oxidant for burning as part of different systems such as fuel burners, where the fluid composite after a stage of intense molecular between a controlled flow of a liquid such as fuel and a faster flow of compressed highly directional gas such as air results in the creation of a three dimensional matrix of small hallow spheres each made of a layer of fuel around a volume of pressurized gas. In an alternate embodiment, external conditions such as inline pressure warps the spherical cells into a network of oblong shape cells where pressurized air is used as part of the combustion process. In yet another embodiment, additional gas such as air is added via a second inlet to increase the proportion of oxidant to carburant as part of the mixture.
    • 本公开涉及新的流体复合材料,用于生产流体复合材料的装置及其生产方法,更具体地说,由燃料及其氧化剂制成的流体复合材料作为不同系统的一部分燃烧,例如燃料燃烧器, 其中流体复合材料在液体如燃料的受控流动和较高压缩的高定向气体(例如空气)的流动之后的强分子阶段之后导致产生每个由层构成的小的中空球的三维矩阵 的燃料围绕一定体积的加压气体。 在替代实施例中,诸如在线压力的外部条件将球形细胞扭曲成长方形网格,其中使用加压空气作为燃烧过程的一部分。 在另一个实施方案中,另外的气体例如空气通过第二入口加入,以增加作为混合物的一部分的氧化剂与渗碳剂的比例。