Downhole flow meter
First Claim
1. A method for measuring the flow rate of a fluid in a wellbore, comprising:
- flowing the fluid through a variable orifice valve having one or more orifices between an annular region outside a tool string and a region inside the tool string;
measuring the pressure differential of the fluid across the variable orifice valve; and
calculating the flow rate through the variable orifice valve by use of the pressure differential measurement.
1 Assignment
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Accused Products
Abstract
This invention comprises the use of a variable orifice valve as a flow controller and flow meter. Pressure measurements are taken upstream and downstream of the variable orifice valve by way of a differential pressure measurement mechanism. The differential pressure measurement mechanism may comprise two separate absolute pressure measurement devices or a single differential pressure measurement device. Flow rate through the valve is determined from the pressure drop across the valve. In wellbores having multiple zones, a variable orifice valve together with a differential pressure measurement mechanism may be deployed for each zone. The flow rate through each of the zones and at the surface can then be monitored and controlled.
74 Citations
32 Claims
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1. A method for measuring the flow rate of a fluid in a wellbore, comprising:
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flowing the fluid through a variable orifice valve having one or more orifices between an annular region outside a tool string and a region inside the tool string;
measuring the pressure differential of the fluid across the variable orifice valve; and
calculating the flow rate through the variable orifice valve by use of the pressure differential measurement. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
determining the flow coefficient and the total area of the variable orifice valve openings that are exposed to flow (“
the total area”
);
determining the expansibility factor and the fluid density of the fluid flowing through the variable orifice valve; and
calculating the flow rate through the variable orifice valve by use of the pressure differential measurement, the flow coefficient, the total area, the expansibility factor, and the fluid density.
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3. The method of claim 2, wherein the determining the expansibility factor and the fluid density step comprises performing a PVT calculation of the fluid.
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4. The method of claim 2, wherein the determining the expansibility factor and the fluid density step comprises determining the fluid density by taking a gradiomanometer measurement of the fluid.
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5. The method of claim 3, wherein the determining the expansibility factor and the fluid density step further comprises approximating the expansibility factor to equal 1.
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6. The method of claim 1, wherein the fluid is a singe phase liquid.
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7. The method of claim 1, wherein the fluid is a single phase gas.
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8. The method of claim 1, wherein the fluid includes a water and an oil content.
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9. The method of claim 2, wherein the fluid includes a water and an oil content.
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10. The method of claim 1, wherein the fluid is a two phase liquid and gas flow.
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11. The method of claim 1, wherein the fluid is a multi phase flow.
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12. The method of claim 9, wherein the determining the expansibility factor and the fluid density step comprises determining the fluid density by utilizing the equation
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13. The method of claim 9, wherein the determining the expansibility factor and the fluid density step comprises estimating the fluid density by taking a differential pressure measurement along the flowline downstream of the valve.
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14. The method of claim 1, wherein the measuring the pressure differential step comprises measuring the pressure upstream of the variable orifice valve with an outer pressure measurement device and measuring the pressure downstream of the variable orifice valve with an inner pressure measurement device.
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15. The method of claim 1, wherein the measuring the pressure differential step comprises measuring the pressure upstream and downstream of the variable orifice valve with a differential pressure measurement device.
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16. The method of claim 1, further comprising:
placing the variable orifice valve in a side pocket of a side pocket mandrel.
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17. The method of claim 16, wherein flowing the fluid through the variable orifice valve comprises flowing the fluid through a valve selected from the group consisting of a side pocket sleeve valve, a disc valve, and a butterfly valve.
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18. A method for measuring the flow rate of a fluid in a wellbore, comprising:
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flowing the fluid through a variable orifice valve;
measuring the pressure differential of the fluid across the variable orifice valve;
determining the flow coefficient and the total area of variable orifice valve openings that are exposed to flow; and
calculating the flow rate through the variable orifice valve by use of the pressure differential measurement, the flow coefficient, and the total area, wherein the determining the flow coefficient and the total area step comprises determining the flow coefficient and the total area for each setting of the variable orifice valve. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25)
utilizing the equation to solve for (α
), wherein (α
o) is the area per opening when the valve is in the fully open position, (Xh) is the fractional stem movement of the valve which equals h/hmax (with (h) being a variable representing the stem position of the valve for a given setting), and v and z are characterizing parameters.
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22. The method of claim 18, wherein the determining the flow coefficient and the total area step comprises determining the flow coefficient prior to deployment into the wellbore.
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23. The method of claim 22, wherein the flow coefficient is determined by connecting the variable orifice valve to a laboratory simulator that simulates flow of downhole fluids.
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24. The method of claim 18, wherein the determining the flow coefficient and the total area step comprises determining the flow coefficient while the valve is deployed in the wellbore.
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25. The method of claim 24, wherein the flow coefficient is determined by utilizing the equation
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A ɛ 2 Δ P ρ to solve for (C), wherein (Q) is the flow rate, (C) is the flow coefficient, (A) is the total area, (ε
) is the expansibility factor, (Δ
P) is the pressure drop across the valve, and (ρ
) is the upstream fluid density.
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26. A method for measuring the flow rate of a fluid in a wellbore, comprising:
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flowing the fluid through a variable orifice valve;
measuring the pressure differential of the fluid across the variable orifice valve;
determining the flow coefficient and the total area of variable orifice valve openings that are exposed to flow;
calculating the flow rate through the variable orifice valve by use of the pressure differential measurement, the flow coefficient, and the total area; and
calibrating the flow coefficient and the total area, wherein the calibrating step comprises calibrating the flow coefficient and the total area for each setting of the variable orifice valve. - View Dependent Claims (27, 28, 29)
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30. A method for measuring the flow rate of a fluid in a wellbore, comprising:
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flowing the fluid through a variable orifice valve;
measuring the pressure differential of the fluid across the variable orifice valve;
calculating the flow rate through the variable orifice valve by use of the pressure differential measurement;
determining the flow coefficient and the total area of the variable orifice valve openings that are exposed to flow (“
the total area”
);
determining the expansibility factor and the fluid density of the fluid flowing through the variable orifice valve;
calculating the flow rate through the variable orifice valve by use of the pressure differential measurement, the flow coefficient, the total area, the expansibility factor, and the fluid density; and
calibrating the flow coefficient and the total area, wherein the calibrating step comprises calibrating the flow coefficient and the total area for each setting of the variable orifice valve, and, wherein the calibrating step comprises determining the product of the flow coefficient and the total area by utilizing the equation to solve for (C), wherein (Q) is the flow rate, (C) is the flow coefficient, (A) is the total area, (ε
) is the expansibility factor, (Δ
P) is the pressure drop across the valve, and (ρ
) is the upstream fluid density.
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31. A method for measuring the flow rate of a fluid in a wellbore, comprising:
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flowing the fluid through plural variable orifice valves;
measuring the differential pressure of the fluid across each of the variable orifice valves, and calculating flow rate in a tubing string based on the differential pressure measurements across corresponding variable orifice valves. - View Dependent Claims (32)
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Specification