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    • 1. 发明申请
    • SYSTEM AND METHOD FOR CREATING LIQUID DROPLET IMPACT FORCED COLLAPSE OF LASER NANOPARTICLE NUCLEATED CAVITIES
    • 用于创建激光纳米核心核心液体液滴冲击强迫收缩的系统和方法
    • US20110228890A1
    • 2011-09-22
    • US12263901
    • 2008-11-03
    • Robert C. Dean, JR.R. Glynn HoltRonald A. Roy
    • Robert C. Dean, JR.R. Glynn HoltRonald A. Roy
    • G21B1/00B41J2/015
    • G21B3/00H05H6/00Y02E30/18
    • A device, method and system for causing a controlled collapse of cavities formed within liquid droplets wherein a pressurized jet comprising a liquid and nanoparticle material produces droplets from the breakup of the jet stream. The liquid droplets may be irradiated with energy to produce and expand cavities formed within the droplets by irradiation of the nanoparticles contained within the droplets or alternatively, a volatile fluid with or without a metal nanoparticle may form the cavity. The droplets are collided with a target to collapse the cavities within the droplets. The irradiating (if provided) and colliding are timed to enhance implosion energy resulting from the cavities' collapse. The implosion energy and the fuel in the cavity may be used to activate and sustain a fusion reaction or from any other purposes.
    • 一种用于引起在液滴内形成的腔的受控塌陷的装置,方法和系统,其中包括液体和纳米颗粒材料的加压射流从喷射流的分解产生液滴。 可以用能量照射液滴以通过照射包含在液滴内的纳米颗粒来产生和扩展在液滴内形成的空腔,或者备选地,具有或不具有金属纳米颗粒的挥发性流体可以形成空腔。 液滴与靶碰撞以使液滴内的空腔折叠。 照射(如果提供)和碰撞的时间是为了增强由空腔塌陷引起的内爆能量。 内腔中的内爆能量和燃料可用于激活和维持聚变反应或来自任何其他目的。
    • 4. 发明授权
    • Perfusive chromatography
    • 渗透色谱法
    • US5228989A
    • 1993-07-20
    • US988028
    • 1992-12-09
    • Noubar B. AfeyanFred E. RegnierRobert C. Dean, Jr.
    • Noubar B. AfeyanFred E. RegnierRobert C. Dean, Jr.
    • B01D15/08B01D15/34G01N30/52
    • B01J20/285B01D15/345B01J20/28092B01J20/28095B01J2220/54G01N2030/528
    • Disclosed are chromatography methods and matrix geometries which permit high resolution, high productivity separation of mixtures of solutes, particularly biological materials. The method involves passing fluids through specially designed chromatography matrices at high flow rates. The matrices define first and second interconnected sets of pores and a high surface area for solute interaction in fluid communication with the members of the second set of pores. The first and second sets of pores are embodied, for example, as the interstices among particles and throughpores within the particles. The pores are dimensioned such that, at achievable high fluid flow rates, convective flow occurs in both pore sets, and the convective flow rate exceeds the rate of solute diffusion in the second pore set. This approach couples convective and diffusive mass transport to and from the active surface and permits increases in fluid velocity without the normally expected bandspreading.
    • 公开了色谱方法和基质几何形状,其允许溶质,特别是生物材料的混合物的高分辨率,高生产率分离。 该方法包括以高流速将流体通过专门设计的色谱基质。 这些基质定义了第一和第二相互连接的孔组,以及用于与第二组孔的构件流体连通的溶质相互作用的高表面积。 第一和第二组孔体现为例如颗粒内的颗粒和透孔之间的间隙。 孔的尺寸使得在可实现的高流体流速下,在两个孔组中都发生对流,并且对流流速超过第二孔组中溶质扩散的速率。 这种方法将对流和扩散质量传输与活性表面相耦合,并允许流体速度的增加而没有通常预期的带扩展。