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    • 4. 发明申请
    • METHODS AND APPARATUS FOR PARTICLE AGGREGATION USING ACOUSTIC STANDING WAVES
    • 使用声学波形的粒子聚集的方法和装置
    • WO2016154475A1
    • 2016-09-29
    • PCT/US2016/024082
    • 2016-03-24
    • FLODESIGN SONICS, INC.
    • PRESZ, JR., Walter M.CHITALE, KedarLIPKENS, Bart
    • B01D21/28
    • B01D21/283C02F1/36C12M47/02
    • Devices for separating materials from a host fluid are disclosed. The devices include an acoustic chamber, the figure indicates the view perpendicular to an ultrasonic transducer (130), having an inlet at the bottom and an outlet at the top. The ultrasonic transducer (130) and reflector create a multi-dimensional acoustic standing wave in the acoustic chamber that traps the materials and permits a continuous separation of the materials from the host fluid (vertical flow direction 120). The materials and the host fluid can thus be separately collected. Multiple sets of trapping lines (132) are generated by the acoustic standing wave, and the transducer (130) is oriented or has a shape to minimize cross-sectional area for straight vertical channels between the trapping lines.
    • 公开了用于从主体流体分离材料的装置。 这些装置包括声学室,该图表示垂直于超声换能器(130)的视图,其具有底部的入口和顶部的出口。 超声波换能器(130)和反射器在声学室中产生多维声驻波,其捕获材料并允许材料与主体流体(垂直流动方向120)的连续分离。 因此,可以分别收集材料和主体流体。 通过声驻波产生多组捕获线(132),并且换能器(130)被定向或具有使捕集线之间的直立垂直通道的横截面积最小化的形状。
    • 7. 发明申请
    • METHODS AND APPARATUS FOR PARTICLE AGGREGATION USING ACOUSTIC STANDING WAVES
    • 使用声学驻波的粒子聚集的方法和装置
    • WO2017165014A1
    • 2017-09-28
    • PCT/US2017/017788
    • 2017-02-14
    • FLODESIGN SONICS, INC,
    • PRESZ, JR, Walter M.CHITALE, KedarLIPKENS, Bart
    • B01D21/28B01J19/10C02F1/36
    • B01D21/283C02F1/36C12M47/02
    • Methods for generating particulate clusters and nodal trapping lines having desired widths are disclosed. The devices include an acoustic chamber having an inlet and an outlet. An ultrasonic transducer and reflector create a multi-dimensional acoustic standing wave that generates particulate clusters separated by a channel of fluid running therebetween and creates nodal trapping lines. The frequency of the multi-dimensional acoustic standing wave can be selectively tuned so as to selectively control at least one of (a) a width of each particulate cluster, or (b) a width of each channel of fluid. The frequency of the multi-dimensional acoustic standing wave can also be selectively tuned so as to selectively control the width of each nodal trapping line. Also disclosed are particulate clusters separated by a channel of fluid, wherein a ratio of the widths of the particulate clusters and the channel of fluid can be varied as desired.
    • 公开了用于产生具有期望宽度的粒子簇和节点捕获线的方法。 这些装置包括具有入口和出口的声室。 超声波换能器和反射器产生多维声学驻波,其产生由在其间流动的流体通道分开的颗粒群并产生节点俘获线。 可以选择性地调节多维声驻波的频率,以便选择性地控制(a)每个颗粒簇的宽度,或(b)每个流体通道的宽度中的至少一个。 多维声学驻波的频率也可以被选择性地调谐,以选择性地控制每个节点陷波线的宽度。 还公开了由流体通道分离的颗粒簇,其中颗粒簇的宽度与流体通道的宽度的比率可以根据需要改变。