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    • 5. 发明申请
    • METHOD OF SEPARATING TWO DISPERSED-PHASE IMMISCIBLE LIQUIDS
    • 分离两相不稳定液体的方法
    • US20120125868A1
    • 2012-05-24
    • US13265580
    • 2010-04-21
    • Stefano FalappiThierry PalermoChristine NoikBenjamin BrocartAlain Ricordeau
    • Stefano FalappiThierry PalermoChristine NoikBenjamin BrocartAlain Ricordeau
    • B01D17/025
    • B01D17/0211B01D17/0214B01D17/047
    • Method of separating two dispersed-phase immiscible liquids. The two liquids are fed into a gravity separator where both liquids are separated by decantation. A first phase consisting of a first liquid is obtained at the bottom of the separator, a second phase consisting of the second liquid is obtained at the tap of the separator, a third phase containing the two dispersed-phase immiscible liquids and a fourth phase containing the two immiscible liquids in a dense bed are obtained. Physico-chemical properties of the liquids and of the dispersed phase are measured, and a physical separation model is defined. This model is defined considering that the separator works under stationary conditions, using a matter conservation balance for the first fluid within the dense bed, while taking account of a first phenomenon of coalescence between water drops within the third phase, and of a second phenomenon of coalescence between water drops of the fourth phase and the first phase. This model is then used to optimize implementation of the separation. Application to the separation of petroleum effluents for example.
    • 分离两种分散相不混溶液体的方法。 将两种液体进料到重力分离器中,其中两种液体通过倾析分离。 在分离器的底部获得由第一液体组成的第一相,在分离器的龙头处获得由第二液体组成的第二相,含有两个分散相不混溶液体的第三相和含有 获得致密床中的两种不混溶液体。 测量液体和分散相的物理化学性质,并定义物理分离模型。 考虑到分离器在稳定条件下工作,使用密度床内的第一流体的物质保持平衡,同时考虑到在第三阶段内的水滴之间的第一次聚结现象,以及第二现象 第四相水滴与第一相之间的聚结。 然后,该模型用于优化分离的实现。 例如应用于石油流出物的分离。
    • 6. 发明申请
    • WASTEWATER TREATMENT SYSTEM
    • 废水处理系统
    • US20110155663A1
    • 2011-06-30
    • US12937761
    • 2008-04-18
    • John M. McNellisRobin D. MahanJeri L. MeyerTodd L. Steinbach
    • John M. McNellisRobin D. MahanJeri L. MeyerTodd L. Steinbach
    • B01D17/025A01N25/34A01N59/20A01P1/00
    • B01D21/2466C02F1/505C02F2001/007
    • A wastewater treatment system for removing settled material from a supply of wastewater includes an open-top clarifier tank for holding wastewater having a minimum upper surface level, a support member supported above the clarifier tank and a wastewater treatment module positioned to be located at least partially below the clarifier tank upper surface level so as to have a submerged portion within the wastewater contained within the clarifier tank. At least part of the submerged portion, which can include an effluent supply conduit, has an outer surface formed of an anti-biologic material. The anti-biologic material inhibits the growth of algae within the wastewater and on the anti-biologic surface. The anti-biologic material can be a copper material, and can be provided on a base material such as stainless steel.
    • 用于从废水供应中除去沉降的材料的废水处理系统包括用于容纳具有最小上表面水平的废水的开顶澄清池,支撑在澄清池上方的支撑构件和定位成至少部分地位于其上的废水处理模块 在净化器罐上表面水平面下方,以便在包含在澄清池内的废水中具有浸没部分。 浸没部分的至少一部分,其可以包括流出物供应管道,具有由抗生物材料形成的外表面。 抗生物材料抑制废水和抗生物表面内藻类的生长。 抗生物材料可以是铜材料,并且可以设置在诸如不锈钢的基材上。
    • 7. 发明授权
    • Method of and apparatus for separation of scum from a liquid
    • 从液体中分离浮渣的方法和设备
    • US07662297B2
    • 2010-02-16
    • US11632430
    • 2005-07-13
    • Bradley Desmond Leslie Murray
    • Bradley Desmond Leslie Murray
    • B01D17/025C02F1/40
    • C02F1/24B01D21/2433C02F3/12C02F2303/12Y02W10/15
    • Apparatus for the separation of scum from a liquid including a housing (22) incorporating two side walls in spaced relationship and a scraper wall disposed between said side walls. A rotational device (12) mounted in the housing (22) provides rotational motion about one or more horizontal axes. The rotational device (12) includes one or more paddles (13-16) which extend outwardly with respect to the rotation axis forming a substantial sealing engagement with the opposed inner faces of the side walls of the housing. The scraper wall and rotational device are arranged such that when immersed in water, the paddle(s) (13-16) may be rotated to become at least partly submerged and the outer periphery(ies) engage with the scraper wall to lift a portion of the water and scum above the natural level of the water.
    • 用于将浮渣与液体分离的装置,包括具有间隔开的两个侧壁的壳体(22)和设置在所述侧壁之间的刮板壁。 安装在壳体(22)中的旋转装置(12)提供关于一个或多个水平轴线的旋转运动。 旋转装置(12)包括相对于旋转轴向外延伸的一个或多个桨叶(13-16),其形成与壳体的侧壁的相对的内表面的实质密封接合。 刮板壁和旋转装置被布置成使得当浸入水中时,桨(13-16)可以旋转以至少部分浸没,并且外周与刮板壁接合以提升部分 的水和浮渣高于自然水位。