Petroleum-fluid property prediction from gas chromatographic analysis of rock extracts or fluid samples
First Claim
1. A method of analyzing a reservoir fluid property of a small volume rock extract or fluid sample, comprising:
- a) obtaining a rock extract or fluid sample from a subterranean reservoir, wherein a volume of the rock extract or fluid sample is in the microliter range;
b) analyzing the rock extract or fluid sample by gas chromatography to provide a gas chromatogram;
c) calculating chromatographic peak area for three or more alkanes in the gas chromatogram;
d) selecting a representative series of three or more alkane peaks for analysis;
e) optionally, normalizing the alkane peak areas across the representative series;
f) optionally, converting the chromatographic peak areas of the selected series to mole percent or weight percent;
g) obtaining a plot of the concentration in terms of peak area, mole percent or weight percent, against carbon number or molecular weight;
h) fitting an equation to plotted concentrations obtained from (g);
i) determining goodness of fit (R2) for the equation to the plotted peaks;
j) re-selecting the representative series of alkane peaks and repeating (e), (f), (g), (h), (i) and (j),k) identifying calibration petroleum sample or samples with similar plot;
l) assigning one or more fluid properties from the calibration petroleum sample or samples to the rock extract or fluid sample with unknown property;
m) determining the unknown property of the rock extract or fluid sample based on the assigning; and
n) adjusting a field development operation based on the unknown property determined in step m).
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Abstract
This method allows for prediction of subsurface fluid properties (e.g., phase or API gravity) using gas chromatogram data of a small-volume extract. Small volume equates to microliter scale volume (or milligram scale weight) from a subsurface rock sample, where a fluid test may not be available for analysis. The method may also be applied to petroleum liquid samples where drilling fluid or other contaminants preclude accurate direct property measurement. Gas chromatographic data is calibrated to measured petroleum properties; preferably local oils from the same petroleum system, however, a general global calibration can also be used.
14 Citations
16 Claims
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1. A method of analyzing a reservoir fluid property of a small volume rock extract or fluid sample, comprising:
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a) obtaining a rock extract or fluid sample from a subterranean reservoir, wherein a volume of the rock extract or fluid sample is in the microliter range; b) analyzing the rock extract or fluid sample by gas chromatography to provide a gas chromatogram; c) calculating chromatographic peak area for three or more alkanes in the gas chromatogram; d) selecting a representative series of three or more alkane peaks for analysis; e) optionally, normalizing the alkane peak areas across the representative series; f) optionally, converting the chromatographic peak areas of the selected series to mole percent or weight percent; g) obtaining a plot of the concentration in terms of peak area, mole percent or weight percent, against carbon number or molecular weight; h) fitting an equation to plotted concentrations obtained from (g); i) determining goodness of fit (R2) for the equation to the plotted peaks; j) re-selecting the representative series of alkane peaks and repeating (e), (f), (g), (h), (i) and (j), k) identifying calibration petroleum sample or samples with similar plot; l) assigning one or more fluid properties from the calibration petroleum sample or samples to the rock extract or fluid sample with unknown property; m) determining the unknown property of the rock extract or fluid sample based on the assigning; and n) adjusting a field development operation based on the unknown property determined in step m). - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of analyzing a reservoir fluid property of a small volume rock extract or fluid sample, comprising:
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a) obtaining a rock extract or fluid sample from a subterranean reservoir, wherein a volume of the rock extract or fluid sample is in the microliter range; b) analyzing the rock extract or fluid sample by gas chromatography to provide a gas chromatogram; c) calculating chromatographic area for three or more alkane pseudocomponents in the gas chromatogram; d) selecting a representative series of three or more pseudocomponent areas for analysis; e) optionally, normalizing the pseudocomponent peak areas across the representative series; f) optionally, converting the pseudocomponent peak areas of the selected series to mole percent or weight percent; g) obtaining a plot of the concentration in terms of pseudocomponent peak area, mole percent or weight percent against carbon number or molecular weight; h) fitting an equation to plotted concentrations obtained from (g); i) determining goodness of fit (R2) for the equation to the pseudocomponent areas; j) re-selecting the representative series of pseudocomponent areas and repeating (e), (f), (g), (h), (i) and (j) as needed to obtain suitable goodness of fit; k) identifying a calibration petroleum sample with a similar plot; l) assigning one or more fluid properties selected from the group consisting of API gravity, fluid phase, and any combination thereof, from the calibration petroleum sample to the rock extract or fluid sample with unknown properties; m) determining petroleum API gravity or petroleum phase of the rock extract or fluid sample based on the assigning; and n) adjusting a field development operation based on the petroleum API gravity or petroleum phase of the rock extract or fluid sample determined in step m). - View Dependent Claims (8, 9, 10, 11, 12)
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13. A method of analyzing a reservoir fluid property of a contaminated, degraded, or evaporated rock extract or fluid sample, comprising:
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a) obtaining a contaminated, degraded or evaporated rock extract or fluid sample from a subterranean reservoir, wherein a volume of the contaminated, degraded or evaporated rock extract or fluid sample is in the microliter range; b) analyzing the contaminated, degraded or evaporated rock extract or fluid sample by gas chromatography to provide a gas chromatogram; c) calculating chromatographic areas for three or more alkane areas in the gas chromatogram; d) selecting a representative series of three or more alkane areas for analysis; e) optionally, normalizing the alkane peak areas across the representative series; f) optionally, converting the chromatographic peak areas of the selected series to mole percent or weight percent; g) obtaining a plot of the concentration in terms of peak area, mole percent or weight percent against carbon number or molecular weight; h) fitting an equation to plotted concentrations obtained from (g); i) determining goodness of fit (R2) for the equation to the plotted peaks; j) re-selecting the selected series of alkane areas and repeating (e), (f), (g), (h), (i) and (j) as needed to obtain suitable goodness of fit; k) identifying a calibration petroleum sample with similar plot; l) assigning one or more fluid properties from the calibration petroleum sample to the contaminated, degraded or evaporated rock extract or fluid sample with unknown property; m) determining the unknown property of the rock extract or fluid sample based on the assigning; and n) adjusting a field development operation based on the unknown property determined in step m). - View Dependent Claims (14, 15, 16)
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Specification