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    • 3. 发明授权
    • Method of producing dispersions and carrying out of chemical reactions in the disperse phase
    • 在分散相中产生分散体并进行化学反应的方法
    • US06321998B1
    • 2001-11-27
    • US09068264
    • 1998-05-05
    • Klaus SchubertWilhelm BierGerd LinderErhard HerrmannBernd KoglinThomas Menzel
    • Klaus SchubertWilhelm BierGerd LinderErhard HerrmannBernd KoglinThomas Menzel
    • A62C502
    • B01F5/0256B01F5/0644B01F13/00B01F13/0059B01J19/0093B01J2219/00783B01J2219/00889Y10S366/03
    • In the process for the continuous dispersion of at least one fluid A constituting the disperse phase and at least one continuous phase constituting the enclosing phase of a fluid B, at least one fluid stream A and at least one fluid stream B are fed into a dispersion apparatus and come into contact therein in a dispersion chamber. To this end, a microstructure dispersion apparatus (1a, 1b, 3a, 3b) is used in which the fluid streams A, B are broken up into spatially separate, flowing fluid filaments by a system of microchannels (1a, 1b) associated therewith, which filaments are discharged into the dispersion chamber (4) at identical flow velocities for the particular fluid in such a manner that on discharge into the dispersion chamber (4) a fluid jet (6a) of the disperse phase is in each case immediately adjacent to a fluid jet (6b) of the continuous phase and in each case a fluid jet (6a) of the disperse phase is enclosed as it is broken up into particles in the adjacent fluid jets (6b) of the continuous phase.
    • 在构成分散相的至少一种流体A和构成流体B的封闭相的至少一个连续相的连续分散的过程中,将至少一种流体流A和至少一种流体流B进料到分散体 装置并在分散室中与其接触。 为此,使用通过与其相关联的微通道(1a,1b)的系统将流体流A,B分解成空间分离的流动细丝的微结构分散装置(1a,1b,3a,3b) 以特定流体的相同流速将这些细丝排出到分散室(4)中,使得在排放到分散室(4)中时,分散相的流体射流(6a)在每种情况下都紧邻于 在连续相的流体射流(6b)中,并且在每种情况下,分散相的流体射流(6a)被包围,因为其在连续相的相邻流体射流(6b)中被分解成颗粒。
    • 8. 发明授权
    • Process for manufacturing finely structured bodies such as heat
exchangers
    • 用于制造诸如热交换器的精细结构体的方法
    • US5249359A
    • 1993-10-05
    • US854065
    • 1992-03-19
    • Klaus SchubertWilhelm BierGerd LinderPeter SchmidPeter BichlerWinfried BrunnerWolfgang Simon
    • Klaus SchubertWilhelm BierGerd LinderPeter SchmidPeter BichlerWinfried BrunnerWolfgang Simon
    • B01D25/00B01J19/00B01J35/04B23B1/00B23C3/00B23P15/26C02F3/10F28D9/00G02B5/18B23D15/00
    • G02B5/1852B01D25/001B01J19/0093B01J35/04B23B1/00B23C3/00B23P15/26F28D9/00F28D9/0037F28F13/185B01D2201/46C02F3/101F28F2260/00Y02W10/15Y10T29/301Y10T29/307Y10T29/4935Y10T29/49366Y10T29/49826
    • A method of producing a finely structured body which includes a plurality of stacked, cut sections of foil at least one of which is provided with grooves in a selected groove direction on at least one surface thereof, and which has a plurality of closely juxtaposed, channel-like perforations with high shape accuracy, true dimensions and high surface quality. The method includes: a. providing a vacuum clamping means comprised of a ground, sintered metal plate which is connected to a vacuum source and which is positioned on a work table which is movable in two mutually perpendicular directions X and Y; b. positioning a machinable foil on the ground, sintered metal plate and clamping the machinable foil thereto by applying an effective amount of vacuum; c. cutting a plurality of parallel grooves into the surface of the machinable foil by means of at least one shaping diamond positioned on a cutting spindle and adjustable in a direction Z, each groove of the plurality of grooves having a groove length, a groove width, and a cross-sectional shape that is constant over the groove length and freely selectable; d. cutting the grooved machinable foil into cut sections having selected lengths and widths; and e. stacking the cut sections, wherein the plurality of grooves have a form precision such that, for groove lengths of more than 1000 .mu.m, the groove width has an accuracy of about +1 .mu.m for land widths which equal or exceed about 15 .mu.m.
    • 一种制造精细结构体的方法,其包括多个层叠的切割部分的箔,其至少一个在其至少一个表面上沿选定的凹槽方向设置有凹槽,并且具有多个紧密并置的通道 类似的穿孔具有高的形状精度,真实的尺寸和高的表面质量。 该方法包括:a。 提供真空夹紧装置,其包括接地的烧结金属板,该金属板连接到真空源并且位于可在两个相互垂直的方向X和Y上移动的工作台上; b。 将可机加工的箔定位在地面上,烧结金属板,并通过施加有效量的真空将可机加工的箔夹紧在其上; C。 通过位于切割轴上的至少一个成形金刚石将多个平行凹槽切割成可加工箔的表面,并且可沿方向Z调节,多个凹槽中的每个凹槽具有凹槽长度,凹槽宽度和 在槽长度上恒定的横截面形状并且可自由选择; d。 将切槽的可加工箔切割成具有选定长度和宽度的切割部分; 和e。 堆叠切割部分,其中多个凹槽具有形状精度,使得对于大于1000μm的凹槽长度,对于等于或超过约15μm的凹槽宽度,凹槽宽度具有约+1μm的精度 。