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    • 3. 发明授权
    • Controlling cone of depression in a well by microprocessor control of
modulating valve
    • 通过调节阀的微处理器控制井中凹陷的锥体
    • US5147559A
    • 1992-09-15
    • US694411
    • 1991-05-01
    • Robert W. BropheyRobert J. Kadwell
    • Robert W. BropheyRobert J. Kadwell
    • B09C1/00E02B15/04E21B43/12E21B43/38F04B49/025
    • F04B49/025B09C1/002B09C1/007E21B43/121E21B43/38Y10T137/0318
    • A method for removing floating immiscible liquids from a well containing both the floating immiscible liquids and water, where the floating immiscible liquids and water meet at a water interface, by controlling a cone of depression within the well. A removal system for removing said floating immiscible liquids is used including a microprocessor, a discharge water line and an upper water interface sensor where at least a portion of the discharge water line is located within the well. The upper water interface sensor is located within the well at a sensor location. The method includes the steps of inserting a modulating control valve into the discharge water line, the modulating control valve being connected to be controlled by the microprocessor, opening the modulating control valve when the water interface rises up to the sensor location, closing the modulating control valve when the water interface falls below the sensor location, and operating the microprocessor to open and close the modulating control valve at a rate which keeps the water interface at a substantially static level.
    • 一种从含有漂浮的不混溶液体和水的井中除去漂浮的不混溶液体的方法,其中漂浮的不混溶的液体和水通过在井内控制凹陷而在水界面处相遇。 使用用于去除所述浮动不混溶液体的去除系统,包括微处理器,排水管线和上水界面传感器,其中至少一部分排放水管线位于井内。 上部水界面传感器位于传感器位置的井内。 该方法包括以下步骤:将调节控制阀插入排放水管线中,调节控制阀连接以由微处理器控制,当水界面上升到传感器位置时打开调节控制阀,关闭调节控制 当水界面落在传感器位置以下时,阀门运行,微处理器以保持水界面处于基本静止水平的速率打开和关闭调节控制阀。
    • 4. 发明授权
    • Methods and apparatus for recovery of hydrocarbons from underground
water tables
    • 从地下水位回收碳氢化合物的方法和装置
    • US4527633A
    • 1985-07-09
    • US513264
    • 1983-07-13
    • Wayne C. McLaughlinWilliam J. ReckerPhillip C. ModesittPaul K. Francescon
    • Wayne C. McLaughlinWilliam J. ReckerPhillip C. ModesittPaul K. Francescon
    • B09C1/00E21B43/12F04F1/08
    • E21B43/121B09C1/002B09C1/007
    • Methods and apparatus for the recovery of petroleum origin hydrocarbons from ground water tables at sites of refineries, oil and gasoline storage and distributing facilities, and the like. Pursuant to the invention, separate liquid handling devices, each in the nature of a vessel or canister and having liquid trapping and ejecting facilities, are employed in a well or wells at the site for separately raising the ground water and liquid hydrocarbons that accumulate on the ground water table, respectively, through which the well or wells extend, under the static pressure of compressed air and free of mechanical pumping action on the liquids. The indicated devices are suspended in the same or adjacent wells that are located at the site, with the ground water handling device being connected to a source of compressed air and piping for carrying away the water to form a cone of depression, and the hydrocarbon handling device being connected to the source of compressed air and a recovery line for separately surfacing and conveying the hydrocarbons flowing into the cone of depression to a point of collection and recovery.
    • 从炼油厂,油,汽油仓储配送设施场地的地下水位回收石油来源的碳氢化合物的方法和装置等。 根据本发明,在井的井或井中采用分别在容器或罐中具有液体捕集和喷射设备的独立的液体处理装置,用于分别提高地下水和积聚在 在压缩空气的静压力下,井或井延伸的地下水位,并且对液体没有机械泵送作用。 指示的装置悬挂在位于现场的相同或相邻的井中,地下水处理装置连接到压缩空气源和管道,用于带走水以形成凹陷锥体,并且烃处理 连接到压缩空气源的装置和用于分别地将流入凹陷锥体的烃输送到收集和回收点的回收管线。
    • 5. 发明授权
    • Floating hydrocarbons separator pump with buoyant housing and
two-chamber vertically moveable member
    • 浮动碳氢化合物分离泵,带有浮力的壳体和双腔垂直移动的构件
    • US5207897A
    • 1993-05-04
    • US702752
    • 1991-05-20
    • William E. BairdPeter J. Tolan
    • William E. BairdPeter J. Tolan
    • B01D17/02B09C1/00E21B43/12E21B43/38
    • E21B43/38B01D17/0214B09C1/002B09C1/007E21B43/121
    • An automatic pumping system for removal of floating contaminants and oil and gasoline seepage from water wells. A vertically reciprocating cone-shaped member, like an inverted funnel, is moved between positions above and below the water surface. As it submerges, the inverted funnel collects the floating product within its circumference and transfers it to a collection space surrounding the cone. In the upper position, this collection space is sealed so that air may be blown into it while the collected product is driven out through a pickup tube to a collection sump for ultimate disposal. A second embodiment incorporates a hydraulic pumping system which operates in synchronism with the contamination collection and disposal system to create a cone of depression which draws the floating product into the space covered by the circumference of the reciprocating cone.
    • 一种自动抽水系统,用于清除水井中的浮游污染物和油和汽油渗漏。 垂直往复的锥形构件,如倒漏斗,在水面之上和之下的位置之间移动。 当它淹没时,倒置的漏斗在其圆周内收集浮动产品并将其转移到围绕锥体的收集空间。 在上部位置,该收集空间被密封,使得可以将空气吹入其中,同时收集的产品通过拾取管被驱出到收集池以用于最终处置。 第二实施例包括液压泵送系统,其与污染物收集和处理系统同步地操作以产生凹陷锥,其将浮动产品吸入由往复锥体的圆周覆盖的空间中。
    • 6. 发明授权
    • Method and apparatus for recovery of water-immiscible liquids from
water-bearing formations
    • 从含水地层回收水不混溶液体的方法和设备
    • US4625807A
    • 1986-12-02
    • US744830
    • 1985-06-14
    • Delmont E. Harlow
    • Delmont E. Harlow
    • B01D17/02B09C1/00E21B43/00E21B43/12E21B34/08E21B44/00F04F1/08
    • E21B43/00B01D17/0214B09C1/002B09C1/007E21B43/121Y10S210/923
    • Ground water pollutant floating above the water table in a water-bearing formation is removed through a well penetrating the formation by lowering the water level so that pollutant from the region surrounding the well will flow into the well due to gravitational force, and lowering a liquid-retaining vessel into the well to a depth whereby a liquid entry port in the vessel is in the pollutant layer above the water level. The vessel is constructed to receive the liquid pollutant by gravitational flow through the liquid entry port, the displaced gas leaving through a vent. A compressed air line feeds the vessel to purge its interior of accumulated liquid through an exit port on an intermittent basis. Check valves associated with each port are actuatable by the influence of the compressed air to prevent leakage of discharged pollutant back into the vessel and to provide complete and efficient purging when the compressed air is flowing. The vessel is incorporated into a system of components including a water pump for lowering the water level in the well, a source of compressed air, a pollutant recovery tank, and control circuits for both the compressed air and the water pump.
    • 通过降低水位使穿透地层的井被排除在含水地层上方的地下水污染物,使得围绕井的区域的污染物由于重力而流入井内,并且降低液体 将容器进入井中,使得容器中的液体进入口处于水位以上的污染物层中。 船舶被构造成通过重力流动通过液体入口接收液体污染物,排出的气体通过排气口离开。 压缩空气管线供给容器以间歇的方式通过出口清除其内部积聚的液体。 与每个端口相关的止回阀可以通过压缩空气的影响来启动,以防止排出的污染物回到容器中,并在压缩空气流动时提供完全高效的清洗。 容器被并入包括用于降低井中的水位的水泵,压缩空气源,污染物回收罐以及用于压缩空气和水泵的控制回路的部件系统。
    • 7. 发明授权
    • Methods and apparatus for recovery of hydrocarbons from underground
water tables
    • 从地下水位回收碳氢化合物的方法和装置
    • US4625801A
    • 1986-12-02
    • US691166
    • 1985-01-14
    • Wayne C. McLaughlinWilliam J. ReckerPhillip C. ModesittPaul K. Francescon
    • Wayne C. McLaughlinWilliam J. ReckerPhillip C. ModesittPaul K. Francescon
    • B09C1/00E21B43/12E21B43/34F04F1/08
    • B09C1/007B09C1/002E21B43/121
    • Methods and apparatus for the recovery of petroleum origin hydrocarbons from ground water tables at sites of refineries, oil and gasoline storage and distributing facilities, and the like. Pursuant to the invention, separate liquid handling devices, each in the nature of a vessel or canister and having liquid trapping and ejecting facilities that are free of mechanical pumping action, are employed for raising the ground water and liquid hydrocarbons that accumulate on the ground water table, respectively, through which the well or wells extend, and under the static pressure of the compressed air. The indicated devices are suspended in the same or adjacent wells that are located at the site, with the ground water handling device being connected to a source of compressed air and piping for carrying away the water to form a cone of depression at the site, and the hydrocarbon handling device being connected to the source of compressed air and a recovery line for separately surfacing and conveying the hydrocarbons to a point of collection and recovery. The invention also provides for use of one of the vessels and associated equipment to pump both liquids from the well to the ground surface for separation of same by a conventional separator.
    • 从炼油厂,油,汽油仓储配送设施场地的地下水位回收石油来源的碳氢化合物的方法和装置等。 根据本发明,采用单独的液体处理装置,每种液体处理装置各自具有容器或罐的性质并且具有没有机械泵送作用的液体捕集和喷射装置,用于提高积累在地下水上的地下水和液体烃 分别通过井或井延伸,并在压缩空气的静压下进行。 所指示的装置悬挂在位于现场的相同或相邻的井中,地下水处理装置连接到压缩空气源和管道,用于携带水以在现场形成凹陷的锥形,以及 碳氢化合物处理装置连接到压缩空气源和用于分开地将烃输送到收集和回收点的回收管线。 本发明还提供使用容器和相关联的设备中的一个将两种液体从井中泵送到地面以便通过常规分离器分离。
    • 8. 发明授权
    • Methods and apparatus for recovery of hydrocarbons from underground
water tables
    • 从地下水位回收碳氢化合物的方法和装置
    • US4546830A
    • 1985-10-15
    • US684274
    • 1984-12-20
    • Wayne C. McLaughlinWilliam J. ReckerPhillip C. ModesittPaul K. Francescon
    • Wayne C. McLaughlinWilliam J. ReckerPhillip C. ModesittPaul K. Francescon
    • B09C1/00E21B43/12F04F1/08
    • E21B43/121B09C1/002B09C1/007
    • Methods and apparatus for the recovery of petroleum origin hydrocarbons from ground water tables at sites of refineries, oil and gasoline storage and distributing facilities, and the like. Pursuant to the invention, separate liquid handling devices, each in the nature of a vessel or canister and having liquid trapping and ejecting facilities, are employed in a well or wells at the site for separately raising the ground water and liquid hydrocarbons that accumulate on the ground water table, respectively, through which the well or wells extend, under the static pressure of compressed air and free of mechanical pumping action on the liquids. The indicated devices are suspended in the same or adjacent wells that are located at the site, with the ground water handling device being connected to a source of compressed air and piping for carrying away the water to form a cone of depression at the site, and the hydrocarbon handling device being connected to the source of compressed air and a recovery line for separately surfacing and conveying the hydrocarbons flowing into the cone of depression to a point of collection and recovery.
    • 从炼油厂,油,汽油仓储配送设施场地的地下水位回收石油来源的碳氢化合物的方法和装置等。 根据本发明,在井的井或井中采用分别在容器或罐中具有液体捕集和喷射设备的独立的液体处理装置,用于分别提高地下水和积聚在 在压缩空气的静压力下,井或井延伸的地下水位,并且对液体没有机械泵送作用。 所指示的装置悬挂在位于现场的相同或相邻的井中,地下水处理装置连接到压缩空气源和管道,用于携带水以在现场形成凹陷的锥形,以及 碳氢化合物处理装置连接到压缩空气源和用于分别表面和输送流入凹陷锥体的烃到收集和回收点的回收管线。