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    • 1. 发明申请
    • WATER AND OIL SEPARATION METHOD USING COMPRESSING TUBES TO VAPORIZE WATER
    • 水和油分离方法使用压缩管蒸汽水
    • WO2016118016A1
    • 2016-07-28
    • PCT/NO2015/050015
    • 2015-01-23
    • NORWEGIAN FIELD INDUSTRY AS
    • NILO, Marius Armann
    • B01D1/16B01D1/20B01D17/04B01D29/90B01D29/11B01D36/00C10G31/06C10G31/09C10G33/06
    • B01D36/003B01D1/16B01D1/20B01D17/042B01D17/044B01D29/111B01D29/906B01D35/005C10G31/06C10G31/09C10G33/06C10G2300/1033
    • The present invention pertains to a filter for the removal of water from oil, the filter comprising a distillation element having an inlet pipe that in one end is to be fluidly connectable to a reservoir of oil to be filtered, and in the other end being fluidly connected to a distillation head, said distillation head comprising a plurality of compressing tubes for injecting under pressure said oil into an evaporation chamber, whereby eventual water within the oil droplet evaporates from said decompressed oil, the filter further comprising a tubular core with a plurality of apertures and a hollow interior, said core having an open end for fluid communication with the hollow interior, a length of yarn wound around an outer surface of the core, wherein the filter further comprises means for blowing air or an inert gas into the evaporation chamber for removal of the water vapor during use of the filter. The present invention also pertains to a method of manufacturing such a filter, as well as a method of removing water oil. The water removal unit is part of a modular system, which makes the whole filter unit scalable within fixed steps. When water removing block (105) with attached start block (89) and end block (72), are stacked upon each other, and connected to filter unit (27), it becomes scalable complete cleaning equipment. Pump and motor must be adapted to each configuration.
    • 本发明涉及一种用于从油中除去水的过滤器,该过滤器包括具有入口管的蒸馏元件,该入口管的一端可流体地连接到待过滤的油的储存器,另一端是流体 连接到蒸馏头,所述蒸馏头包括多个压缩管,用于在压力下将所述油喷射到蒸发室中,由此油滴中最终的水从所述减压油中蒸发,所述过滤器还包括具有多个 孔和中空的内部,所述芯具有用于与中空内部流体连通的开口端,一段缠绕在芯的外表面上的纱线,其中过滤器还包括用于将空气或惰性气体吹入蒸发室的装置 用于在使用过滤器期间除去水蒸气。 本发明还涉及制造这种过滤器的方法,以及除去水油的方法。 除水单元是模块化系统的一部分,这使得整个过滤器单元在固定的步骤内可扩展。 当具有附接的起始块(89)和端块(72)的除水块(105)彼此堆叠并连接到过滤器单元(27)时,其变为可伸缩的完整清洁设备。 泵和电机必须适应每种配置。
    • 5. 发明申请
    • COMPOSITE FEEDSTOCK FOR RECOVERY OF HYDROCARBONS FROM HYDROCARBONACEOUS MATERIAL
    • 用烃类物质回收烃类的复合原料
    • WO2015017344A3
    • 2015-10-29
    • PCT/US2014048474
    • 2014-07-28
    • RED LEAF RESOURCES INC
    • PATTEN JAMES W
    • C10G1/00
    • C10G1/045C10B53/06C10G1/008C10G1/02C10G31/06
    • A method of reducing settling of residual comminuted hydrocarbonaceous material during processing (10) can comprise forming a constructed permeability control infrastructure (12) which defines a substantially encapsulated volume. The method can also include introducing a composite comminuted hydrocarbonaceous material into the control infrastructure to form a permeable body (14), where the composite hydrocarbonaceous material includes a comminuted hydrocarbonaceous material and a structural material. The method can further include heating the permeable body sufficient to remove hydrocarbons therefrom (16). The hydrocarbonaceous material is substantially stationary during heating, exclusive of subsidence and settling. The structural material can provide structural integrity to the permeable body sufficient to maintain convective flow of fluids throughout the permeable body during heating.
    • (10)期间减少残余粉碎含烃材料的沉降的方法可包括形成限定基本封装体积的构造的渗透性控制基础结构(12)。 该方法还可以包括将复合粉碎含烃材料引入控制基础设施以形成可渗透体(14),其中复合含烃材料包括粉碎的含烃材料和结构材料。 该方法可以进一步包括加热可渗透体足以从其中除去烃(16)。 含烃材料在加热期间基本静止,不包括沉降和沉降。 结构材料可以为可渗透体提供足够的结构完整性,以在加热过程中维持流体在整个可渗透体内的对流流动。
    • 9. 发明申请
    • METHOD AND DEVICE FOR PRETREATMENT OF BIOMASS FOR CONVERSION TO ENERGY
    • 用于预处理生物质转化为能量的方法和装置
    • WO2014123426A1
    • 2014-08-14
    • PCT/NO2014/000017
    • 2014-02-07
    • CAMBI TECHNOLOGY AS
    • SOLHEIM, Odd, EgilNILSEN, Pål Jahre
    • C02F11/18B01J3/00C02F11/04
    • B01J3/006C02F11/18C02F2209/03C02F2209/42C02F2303/10C08H8/00C10G1/00C10G31/06C12M45/02C12M45/06C12M45/20D21C1/02Y02W10/30
    • The present invention describes a method and device for pretreatment of organic material, more specific bio mass, for energy conversion, where said method comprises a first preheating step with a preheating vessel (4), a hydrolysis step with a hydrolysis reactor (5) and a pressure reducing step with a pressure reduction vessel (6), where the transfer of said organic material from the preheating vessel (4) to the hydrolysis rector (5) is effected by gravity and by creating a vacuum in the reactor (5). This method results in a very fast transfer of material from the preheating vessel (4) to the reactor (5). In addition, the filling volume of the reactor (5) is being controlled by a high frequency pressure sensor and supply of steam (3A) to the top of the reactor in order to provide the necessary head space. The invention also describes a device for performing said method.
    • 本发明描述了一种用于预处理有机材料,更具体的生物质量用于能量转化的方法和装置,其中所述方法包括具有预热容器(4)的第一预热步骤,具有水解反应器(5)的水解步骤和 用减压容器(6)进行减压步骤,其中将所述有机材料从预热容器(4)转移至水解反应器(5)由重力进行并在反应器(5)中产生真空。 这种方法导致材料从预热容器(4)到反应器(5)的非常快的转移。 此外,反应器(5)的填充体积由高频压力传感器控制,并将蒸汽(3A)供应到反应器的顶部,以提供必要的顶部空间。 本发明还描述了一种用于执行所述方法的装置。
    • 10. 发明申请
    • PROCESSING UNIT AND METHOD FOR SEPARATING HYDROCARBONS FROM FEEDSTOCK MATERIAL
    • 加工单元和从原料分离烃类的方法
    • WO2013159231A1
    • 2013-10-31
    • PCT/CA2013/050318
    • 2013-04-25
    • FULCRUM ENVIRONMENTAL SOLUTIONS INC.
    • CAULEY, Phillip
    • C10G31/10B03B9/02C10G31/06
    • A61L2/10C10G1/045C10G31/06F21V21/00
    • A processing unit and method for separating hydrocarbons from feedstock material. The processing unit includes at least one rotating conveyor in communication with a material inlet and a material outlet; a vacuum pump providing a vacuum atmosphere within the rotating conveyor; at least one material transfer device positioned at the material inlet and at least one material transfer device positioned at the material outlet, each material transfer device configured to allow transfer of feedstock material into or out of the rotating conveyor whilst maintaining the vacuum atmosphere within the rotating conveyor; and an electrostatic generator connected to the rotating conveyor providing a static charge to the vacuum atmosphere within the rotating conveyor. The method includes rotating the feedstock material in at least one rotating conveyor in communication with a material inlet and a material outlet; providing a vacuum atmosphere within the rotating conveyor; providing a static charge to the vacuum atmosphere within the rotating conveyor; transferring the feedstock material into and out of the rotating conveyor through at least one material transfer device positioned at the material inlet and at least one material transfer device positioned at the material outlet, each material transfer device allowing transfer of feedstock material into or out of the rotating conveyor whilst maintaining the vacuum atmosphere within the rotating conveyor.
    • 一种用于从原料分离碳氢化合物的处理单元和方法。 处理单元包括与材料入口和材料出口连通的至少一个旋转输送机; 在旋转输送机内提供真空气氛的真空泵; 位于材料入口处的至少一个材料转移装置和位于材料出口处的至少一个材料转移装置,每个材料转移装置被配置成允许原料进入或流出旋转输送器,同时将真空气氛保持在旋转 输送带; 以及连接到旋转传送器的静电发生器,为旋转输送机内的真空气氛提供静电荷。 该方法包括在与材料入口和材料出口连通的至少一个旋转输送机中旋转原料; 在旋转输送机内提供真空气氛; 为旋转输送机内的真空气氛提供静电荷; 通过位于材料入口处的至少一个材料转移装置和定位在材料出口处的至少一个材料转移装置将进料和材料转移到旋转输送机中,每个材料转移装置允许将原料转移到或离开 旋转输送机,同时保持旋转输送机内的真空气氛。