Method for continuous interpretation of monitoring data
First Claim
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1. A method for monitoring one or more characteristic of a region of a earth formation over time so as to provide reservoir characterization for reservoir management, comprising:
- a. obtaining source pressure pulses at one or more location in a source well so as to gather source pressure pulse data;
b. obtaining observer pressure data at one or more location in an observer well, wherein said observer pressure data may be correlated to said source pressure pulse data;
c. repeating (a) and (b) one or more times;
d. developing a correlation between said source pressure pulse data and said observer pressure data as a function of time, wherein said correlation is based on a function governed by pressure diffusion;
e. determining the time location of the maximum value of said correlation and analyzing the decay of said maximum value over time so as to gather correlation time data;
f. using said correlation time data to obtain pressure diffusivity between the at least one source well and the at least one observer well and using the pressure diffusivity to estimate inter-well permeability, so as to monitor at least one characteristic such as permeability from the one or more characteristic of the region of said earth formation so as to gather monitored permeability data; and
g. storing said monitored permeability data.
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Abstract
It is shown that a pressure pulse originating in a well is correlated to a pulse observed at a distant well with a characteristic time. The correlation time is directly related to the diffusion time scale arising out of the pressure diffusion equation. The relationship is affected by the source-observer or observer-observer distance but the correction is small for large distances. In practice, further corrections have to be included for finite width pulses. For these pulses, a practical scheme for continuous permeability monitoring is presented.
90 Citations
18 Claims
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1. A method for monitoring one or more characteristic of a region of a earth formation over time so as to provide reservoir characterization for reservoir management, comprising:
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a. obtaining source pressure pulses at one or more location in a source well so as to gather source pressure pulse data; b. obtaining observer pressure data at one or more location in an observer well, wherein said observer pressure data may be correlated to said source pressure pulse data; c. repeating (a) and (b) one or more times; d. developing a correlation between said source pressure pulse data and said observer pressure data as a function of time, wherein said correlation is based on a function governed by pressure diffusion; e. determining the time location of the maximum value of said correlation and analyzing the decay of said maximum value over time so as to gather correlation time data; f. using said correlation time data to obtain pressure diffusivity between the at least one source well and the at least one observer well and using the pressure diffusivity to estimate inter-well permeability, so as to monitor at least one characteristic such as permeability from the one or more characteristic of the region of said earth formation so as to gather monitored permeability data; and g. storing said monitored permeability data. - View Dependent Claims (2, 3, 4)
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5. A method of monitoring permeability of a region of earth formation over time so as to assist with reservoir management, comprising:
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a. inducing one or more pressure pulses at one or more location in at least one source well, wherein data on said induced pressure pulses is gathered and referred as induced pressure pulse data; b. measuring pressure data at one or more location in at least one observer well, wherein said pressure data includes pressure pulses having diffused through at least a portion of said earth formation whereby diffused pressure pulse data is gathered; c. repeating (a) and (b) one or more times; d. developing a correlation between said induced pressure pulse data and said diffused pressure pulse data as a function of time so as to gather correlation time data; and e. analyzing said correlation time data to obtain pressure diffusivity between the at least one source well and the at least one observer well and using the pressure diffusivity to estimate interwell permeability, so as to monitor the permeability of the region of earth formation and gather monitored permeability data. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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Specification