HYDRAULIC OIL WELL PUMPING SYSTEM, AND METHOD FOR PUMPING HYDROCARBON FLUIDS FROM A WELLBORE
First Claim
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1. A hydraulic oil well pumping system, comprising:
- an elongated hydraulic cylinder;
a piston that is movable between upper and lower rod positions within the cylinder;
a rod string that is mechanically connected to and that extends downwardly from the piston, the rod string being configured to extend into a wellbore for pumping oil from the wellbore;
a prime mover;
a hydraulic pump that is powered by the prime mover;
a control valve that moves between upstroke and downstroke flow positions;
an oil line connecting the pump and the hydraulic cylinder, the directional control valve being positioned in the oil line so that it can direct flow between the pump and the cylinder;
a fluid reservoir for containing hydraulic fluid to be supplied to the pump;
a reservoir line that transmits hydraulic fluid from the cylinder to the reservoir;
an electronic control system that controls movement of the piston as it moves between the upper and lower rod positions by cycling the valve between (i) an “
upstroke”
condition wherein the pump is pumping fluid through the oil line and into the hydraulic cylinder to move the piston to its upper rod position, and (ii) a “
neutral”
condition wherein the pump is no longer pumping fluid into the hydraulic cylinder, but is allowing hydraulic fluid to flow back through the oil line in response to gravitational fall of the piston; and
wherein the electronic control system is programmed to cycle based upon a volumetric calculation of hydraulic fluid in the cylinder without reference to position sensors along the wellhead.
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Abstract
A hydraulic oil well pumping system is provided. The system uses a pump to exert hydraulic pressure against a reciprocating piston over a wellbore. The piston is connected to a rod string and downhole pump for pumping oil from a wellbore. The system includes an electronic control system that controls movement of the piston as it moves between the upper and lower rod positions by cycling the hydraulic system between (i) an “upstroke” condition wherein the pump is pumping oil through the oil line into the hydraulic cylinder to move the piston to its upper rod position, and (ii) a “neutral” condition wherein the pump is no longer pumping oil into the hydraulic cylinder, but is allowing oil to flow back through the oil line in response to gravitational fall of the piston. The control system is programmed to cycle based upon a volumetric calculation of hydraulic oil in the cylinder without reference to position sensors along the wellhead. Wellhead conditions or placement of the hydraulic cylinder inside the wellbore may prohibit attaching physical sensors at the wellhead. A method for pumping oil from a wellbore using such a system is also provided herein.
25 Citations
29 Claims
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1. A hydraulic oil well pumping system, comprising:
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an elongated hydraulic cylinder; a piston that is movable between upper and lower rod positions within the cylinder; a rod string that is mechanically connected to and that extends downwardly from the piston, the rod string being configured to extend into a wellbore for pumping oil from the wellbore; a prime mover; a hydraulic pump that is powered by the prime mover; a control valve that moves between upstroke and downstroke flow positions; an oil line connecting the pump and the hydraulic cylinder, the directional control valve being positioned in the oil line so that it can direct flow between the pump and the cylinder; a fluid reservoir for containing hydraulic fluid to be supplied to the pump; a reservoir line that transmits hydraulic fluid from the cylinder to the reservoir; an electronic control system that controls movement of the piston as it moves between the upper and lower rod positions by cycling the valve between (i) an “
upstroke”
condition wherein the pump is pumping fluid through the oil line and into the hydraulic cylinder to move the piston to its upper rod position, and (ii) a “
neutral”
condition wherein the pump is no longer pumping fluid into the hydraulic cylinder, but is allowing hydraulic fluid to flow back through the oil line in response to gravitational fall of the piston; andwherein the electronic control system is programmed to cycle based upon a volumetric calculation of hydraulic fluid in the cylinder without reference to position sensors along the wellhead. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of pumping oil from a wellbore, the wellbore having a bore extending into an earth surface, and the method comprising:
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providing an elongated hydraulic cylinder; providing a piston that is movable between upper and lower rod positions within the cylinder; mechanically connecting the piston to a rod string such that the rod string extends downwardly from the piston and into an oil well; providing a hydraulic pump that is powered by a prime mover; connecting the pump and the hydraulic cylinder with an oil line that transmits hydraulic fluid from the pump to the cylinder; providing a control valve that moves between upstroke and downstroke flow positions; providing a fluid reservoir for containing hydraulic fluid to be supplied to the pump; providing a reservoir line that transmits hydraulic fluid from the cylinder to the reservoir; using an electronic control system, controlling movement of the piston as it moves between the upper and lower rod positions by cycling the pump between (i) an “
upstroke”
condition wherein the pump is pumping hydraulic fluid through the directional control valve, through the oil line and into the hydraulic cylinder to move the piston to its upper rod position, and (ii) a “
neutral”
condition wherein the pump is no longer pumping hydraulic fluid into the hydraulic cylinder, but is allowing fluid to flow back through the oil line and through the down stroke control valve in response to gravitational fall of the rod string;reciprocating the piston and mechanically connected rod string in order to pump fluid from the wellbore; and wherein the electronic control system is programmed to cycle based upon a volumetric calculation of hydraulic oil in the cylinder without reference to position sensors along the wellhead. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. A method of determining location of a hydraulically actuated piston within a cylinder disposed over a wellbore, comprising:
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determining a volume of hydraulic fluid needed to fill a hydraulic cylinder during a piston upstroke; measuring a dynamic rate for filling the cylinder during the upstroke using a pump and an oil line providing fluid communication between the pump and the cylinder; based upon the determined volume and rate, determining a first time for filling the cylinder during the upstroke; determining a second time for draining the fluid from the cylinder through a down-stroke control valve, the down stroke control valve having a sized orifice for reducing a rate at which the piston falls during draining; using an electronic control system, controlling movement of the piston as it reciprocates between upper and lower rod positions by cycling the valve between (i) an “
upstroke”
condition wherein the pump is pumping oil through the directional control valve, through the oil line and into the hydraulic cylinder to move the piston to its upper rod position over the first time, and (ii) a “
neutral”
condition wherein the pump is no longer pumping oil into the hydraulic cylinder, but is allowing oil to flow back through the oil line and through the down stroke speed control valve in response to gravitational fall of the piston during the second time, wherein the cycling is performed without reference to position sensors along the wellhead;monitoring hydraulic fluid pressure in the oil line during the first time and the second time; and reciprocating the piston and mechanically connected rod string in order to pump oil from the wellbore. - View Dependent Claims (23, 24, 25, 26)
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27. A dynamometer card for a hydraulically actuated rod pumping system having a piston, a rod string that moves with the piston, a hydraulic pump, and a cylinder dimensioned to contain hydraulic fluid, the dynamometer card comprising:
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an “
x”
-axis representing a piston position within the cylinder; anda “
y”
-axis representing fluid load applied on a downhole pump during a pumping cycle; andwherein the piston position is calculated based on (i) one or more of a relative measurement of a volume and rate of fluid that has moved to and from the cylinder, or (ii) an absolute measured volume of fluid that has moved to and from the cylinder, and without reference to a position sensor located at least one of at and near a wellhead. - View Dependent Claims (28, 29)
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Specification
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Current AssigneeChris Hodges, Lance Mehegan, Nathan Terry, Tim Hankerd, Walter Phillips
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Original AssigneeChris Hodges, Lance Mehegan, Nathan Terry, Tim Hankerd, Walter Phillips
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InventorsHodges, Chris, Hankerd, Tim, Mehegan, Lance, Terry, Nathan, Phillips, Walter
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Application NumberUS14/023,229Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current417/15CPC Class CodesE21B 43/126 Adaptations of down-hole pu...F04B 17/05 driven by internal-combusti...F04B 19/22 of reciprocating-piston typeF04B 23/02 having reservoirsF04B 23/023 only the pump-part being im...F04B 47/026 Pull rods, full rod compone...F04B 47/04 the driving means incorpora...F04B 49/002 Hydraulic systems to change...F04B 49/065 and making use of computersF04B 49/08 Regulating by delivery pres...F04B 49/106 Responsive to pumped volumeF04B 49/20 by changing the driving speedF04B 49/22 by means of valves F04B49/0...F04B 9/107 rectilinear movement of the...F04B 9/1073 with actuation in the other...
