Determining phase transition pressure of downhole retrograde condensate
First Claim
1. A method for determining phase transition pressure of downhole retrograde condensate, the method comprising:
- a) producing a time-series of fluorescence values by measuring fluorescence from a single-phase flow of OBM-contaminated formation fluid in a downhole cell;
b) producing an OBM-contamination value from the time-series of fluorescence values;
c) setting pressure in the cell at a transition boundary;
d) producing an apparent phase transition pressure value by setting apparent phase transition pressure value equal to pressure of fluid in the cell;
e) producing an OBM-contamination value, and a value of apparent phase transition pressure, for each cycle of a plurality of cycles by repeating steps (a)–
(d); and
f) determining the value of phase transition pressure using apparent phase transition pressure values and OBM-contamination values.
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Abstract
The invention provides a method for determining phase transition pressure of downhole retrograde condensate. An OBM-contamination value is produced from a time-series of fluorescence values produced by measuring fluorescence emitted from a single-phase flow of OBM-contaminated formation fluid in a downhole cell during a cycle of time. The pressure of fluid in the cell is set at a transition boundary by incrementing drawdown pressure and monitoring the presence or absence of a phase transition. An apparent phase transition pressure value associated with the cycle of time is produced by setting apparent phase transition pressure value equal to cell pressure. This process is repeated for several cycles of time to produce a number of pairs of OBM-contamination value and apparent phase transition pressure value as OBM-contamination decreases over time. The value of phase transition pressure is determined by extrapolating from a representation of apparent phase transition pressure values versus OBM-contamination values.
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Citations
34 Claims
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1. A method for determining phase transition pressure of downhole retrograde condensate, the method comprising:
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a) producing a time-series of fluorescence values by measuring fluorescence from a single-phase flow of OBM-contaminated formation fluid in a downhole cell; b) producing an OBM-contamination value from the time-series of fluorescence values; c) setting pressure in the cell at a transition boundary; d) producing an apparent phase transition pressure value by setting apparent phase transition pressure value equal to pressure of fluid in the cell; e) producing an OBM-contamination value, and a value of apparent phase transition pressure, for each cycle of a plurality of cycles by repeating steps (a)–
(d); andf) determining the value of phase transition pressure using apparent phase transition pressure values and OBM-contamination values. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. A method for detecting a phase transition in a flow of retrograde condensate downhole, comprising:
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a) moving formation fluid through a phase-segregator and through a downhole cell; b) illuminating fluid in the cell with fluorescence excitation light to produce a time-series of fluorescence values by measuring fluorescence at intervals of time; c) comparing a change in fluorescence value with a predetermined value; and f) recognizing a phase transition when at least one change in fluorescence value is greater than the predetermined value.
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23. A method for establishing single-phase flow of retrograde condensate downhole, comprising:
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a) moving formation fluid through a phase-segregator and through a downhole cell; b) illuminating fluid in the cell with fluorescence excitation light; c) decreasing drawdown pressure; d) producing a time-series of fluorescence values by measuring fluorescence at intervals of time; e) testing after each measurement for a phase transition; f) repeating steps c)–
e) until a time-series of fluorescence values indicates no phase transition. - View Dependent Claims (24)
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25. A method for validating single-phase flow of retrograde condensate downhole, and fluorescence measurements on said flow, during a period of time corresponding to a time-series of fluorescence measurements, comprising:
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a) moving formation fluid through a phase-segregator and through a downhole cell; b) illuminating fluid in the cell with fluorescence excitation light to produce a time-series of fluorescence values by measuring fluorescence at intervals of time; c) testing after each measurement for a phase transition; and f) validating single-phase flow and fluorescence measurements if every test indicates no phase transition. - View Dependent Claims (26)
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27. A method for establishing multi-phase flow of retrograde condensate downhole, comprising:
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a) moving formation fluid through a phase-segregator and through a downhole cell; b) illuminating fluid in the cell with fluorescence excitation light; c) increasing drawdown pressure; d) producing a time-series of fluorescence values by measuring fluorescence at intervals of time; e) testing after each measurement for a phase transition; f) repeating steps c)–
e) until a time-series of fluorescence values indicates at least one phase transition. - View Dependent Claims (28)
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29. A method for detecting multi-phase flow in a flow of retrograde condensate downhole, comprising:
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a) moving formation fluid through a phase-segregator and through a downhole cell; b) illuminating fluid in the cell with fluorescence excitation light to produce a time-series of fluorescence values by measuring fluorescence at intervals of time; c) comparing a change in fluorescence value with a predetermined value; and f) detecting multi-phase flow when at least one change in fluorescence value is greater than the predetermined value.
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30. A method for setting pressure in the cell at a transition boundary in a single-phase flow of retrograde condensate downhole, comprising:
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a) producing a first time-series of fluorescence values by measuring fluorescence from a flow of OBM-contaminated formation fluid in a downhole cell; b) validating single-phase flow; c) increasing a drawdown pressure by a first defined increment; d) producing a second time-series of fluorescence values from a single-phase flow of OBM-contaminated formation fluid; e) testing for multi-phase flow; f) repeating steps c)–
e) until multi-phase flow is established;g) decreasing a drawdown pressure by a second defined increment; h) producing a third time-series of fluorescence values from a multi-phase flow of OBM-contaminated formation fluid; i) testing for single-phase flow; j) repeating steps g)–
i) until single-phase flow is established. - View Dependent Claims (31)
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32. A method for setting pressure in the cell at a transition boundary in a multi-phase flow of retrograde condensate downhole, comprising:
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a) producing a first time-series of fluorescence values by measuring fluorescence from a flow of OBM-contaminated formation fluid in a downhole cell; b) validating multi-phase flow; c) decreasing a drawdown pressure by a first defined increment; d) producing a second time-series of fluorescence values from a multi-phase flow of OBM-contaminated formation fluid; e) testing for single-phase flow; f) repeating steps c)–
e) until single-phase flow is established;g) increasing a drawdown pressure by a second defined increment; h) producing a third time-series of fluorescence values from a single-phase flow of OBM-contaminated formation fluid; i) testing for multi-phase flow; j) repeating steps g)–
i) until multi-phase flow is established. - View Dependent Claims (33)
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34. A method for determining phase transition pressure of downhole retrograde condensate, the method comprising:
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a) producing an OBM-contamination value associated with a cycle of time from a time-series of fluorescence values measured on single-phase flow of OBM-contaminated formation fluid in a cell during the cycle of time; b) producing an apparent phase transition pressure value associated with the cycle of time, after setting pressure in the cell at a transition boundary in the cycle of time; c) repeating a) and b) to produce OBM-contamination values and apparent phase transition pressure values for several cycles of time; and d) determining the value of phase transition pressure by extrapolating a representation of apparent phase transition pressure values versus OBM-contamination values.
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Specification