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    • 2. 发明授权
    • Inertial impactor with enhanced separation
    • 惯性冲击器具有增强的分离
    • US08202339B2
    • 2012-06-19
    • US12764514
    • 2010-04-21
    • Arun JanakiramanShiming FengPeter K. Herman
    • Arun JanakiramanShiming FengPeter K. Herman
    • B01D45/00
    • B01D45/08
    • An inertial gas-liquid impactor separator includes an inertial impactor collector having an impactor surface extending diagonally relative to axially accelerated flow, which surface is preferably a cone having a leading tip axially facing and axially aligned with the acceleration nozzle. In a further aspect, first and second inertial impactor collectors are provided in series, with an orifice in the first inertial impactor collector providing a nozzle for the second inertial impactor collector. Improved performance is provided by reducing the extent of the stagnation region to change from a narrow band particle size range to a wider band range and to shift cut-off size. An inertial gas-liquid impactor separator has a perforated layer of coalescence media having at least one aperture through which the gas-liquid stream flows. Improved performance is provided by increased penetration of the flow into the media patch and thereby enhancing particle capture by interception, impaction and diffusion.
    • 惯性气液冲击分离器包括惯性冲击收集器,该惯性冲击收集器具有相对于轴向加速流向对角延伸的冲击表面,该表面优选地是具有轴向面向前端并与加速喷嘴轴向对准的锥体。 在另一方面,第一和第二惯性冲击收集器被串联设置,第一惯性冲击收集器中的孔口为第二惯性冲击收集器提供喷嘴。 通过减小停滞区域的范围从窄带粒度范围变化到更宽的频带范围并改变截止尺寸来提供改进的性能。 惯性气体 - 液体冲击分离器具有穿孔层的聚结介质,其具有至少一个孔,气液流通过该孔流动。 通过增加流入介质贴剂的渗透度,从而通过拦截,嵌入和扩散增强颗粒捕获来提高性能。
    • 4. 发明申请
    • Inertial Impactor with Enhanced Separation
    • 具有增强分离的惯性冲击器
    • US20110023429A1
    • 2011-02-03
    • US12764514
    • 2010-04-21
    • Arun JanakiramanShiming FengPeter K. Herman
    • Arun JanakiramanShiming FengPeter K. Herman
    • B01D45/00
    • B01D45/08
    • An inertial gas-liquid impactor separator includes an inertial impactor collector having an impactor surface extending diagonally relative to axially accelerated flow, which surface is preferably a cone having a leading tip axially facing and axially aligned with the acceleration nozzle. In a further aspect, first and second inertial impactor collectors are provided in series, with an orifice in the first inertial impactor collector providing a nozzle for the second inertial impactor collector. Improved performance is provided by reducing the extent of the stagnation region to change from a narrow band particle size range to a wider band range and to shift cut-off size. An inertial gas-liquid impactor separator has a perforated layer of coalescence media having at least one aperture through which the gas-liquid stream flows. Improved performance is provided by increased penetration of the flow into the media patch and thereby enhancing particle capture by interception, impaction and diffusion.
    • 惯性气液冲击分离器包括惯性冲击收集器,该惯性冲击收集器具有相对于轴向加速流向对角延伸的冲击表面,该表面优选地是具有轴向面向前端并与加速喷嘴轴向对准的锥体。 在另一方面,第一和第二惯性冲击收集器被串联设置,第一惯性冲击收集器中的孔口为第二惯性冲击收集器提供喷嘴。 通过减小停滞区域的范围从窄带粒度范围变化到更宽的频带范围并改变截止尺寸来提供改进的性能。 惯性气体 - 液体冲击分离器具有穿孔层的聚结介质,其具有至少一个孔,气液流通过该孔流动。 通过增加流入介质贴剂的渗透度,从而通过拦截,嵌入和扩散增强颗粒捕获来提高性能。
    • 7. 发明授权
    • Apparatus, system, and method for a self-venting drain valve
    • 自排气排水阀的设备,系统和方法
    • US08584702B2
    • 2013-11-19
    • US11936639
    • 2007-11-07
    • Wassem AbdallaPeter K. Herman
    • Wassem AbdallaPeter K. Herman
    • F16K24/02F02M37/22B67D3/04
    • B01D17/0214B01D17/12Y10T137/0424Y10T137/3034Y10T137/86332Y10T137/8634
    • An apparatus, system, and method are disclosed for draining a liquid. An inner drain body is disposed on a container, with an inner liquid outlet in its lower portion, and an air inlet above and at a radial offset from the inner liquid outlet. An outer drain body is disposed around and below the inner drain body, and is adjustably coupled to the inner drain body. An outer liquid outlet is disposed in the outer drain body. A lower seal is disposed below the inner liquid outlet and between the inner drain body and the outer drain body, engaging a lower sealing surface. An upper seal circumscribes the inner liquid outlet and the air inlet, and is disposed between the inner drain body and the outer drain body, engaging an upper sealing surface that extends further beyond the upper seal than the lower sealing surface extends beyond the lower seal.
    • 公开了用于排出液体的装置,系统和方法。 内部排水体设置在容器上,在其下部具有内部液体出口,并且在内部液体出口的上方并且离开内部液体出口的径向偏移处的空气入口。 外部排水体设置在内部排水体周围和下方,并且可调节地联接到内部排水体。 外部液体出口设置在外部排水体中。 下密封件设置在内部液体出口下方和内部排水体和外部排水体之间,与下部密封表面接合。 上密封件限定内部液体出口和空气入口,并且设置在内部排水体和外部排水体之间,与上部密封件相比延伸超过上部密封件的上部密封表面延伸超过下部密封件。