Hydraulic fracture monitoring by low-frequency das
First Claim
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1. A method of optimizing a hydraulic fracturing stimulation of a reservoir comprising:
- a) installing one or more fiber optic cables in at least one wellbore;
b) attaching said one or more fiber optic cables to an interrogator having interrogation and reflection recording functions;
c) fracturing a stage of a multistage hydraulic fracturing stimulation in a reservoir using pre-determined parameters;
d) interrogating at least one of said fiber optic cable with an interrogation signal during said fracturing step;
e) recording one or more reflected datasets;
f) converting said one or more reflected datasets into a continuous record;
g) transforming the continuous record with a low-pass filter transform with a range of greater than 0 to 50 millihertz (mHz) to provide a transformed record;
h) down sampling the transformed record;
i) interpreting the down-sampled transformed record to provide an interpreted record;
j) optimizing said pre-determined parameters of said hydraulic fracturing stimulation using said interpreted record to provide optimized parameters; and
,k) using said optimized parameters for fracturing a subsequent stage in said reservoir.
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Abstract
A method of monitoring hydraulic fracturing using DAS sensors in a treatment well and/or observation well is described. The raw data is transformed using a low pass filter (≤0.05 Hz) and down-sampled to show the signal as the stimulation progresses. The resulting data can be used to optimize the hydraulic fracturing or improve reservoir models for other reservoirs.
16 Citations
16 Claims
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1. A method of optimizing a hydraulic fracturing stimulation of a reservoir comprising:
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a) installing one or more fiber optic cables in at least one wellbore; b) attaching said one or more fiber optic cables to an interrogator having interrogation and reflection recording functions; c) fracturing a stage of a multistage hydraulic fracturing stimulation in a reservoir using pre-determined parameters; d) interrogating at least one of said fiber optic cable with an interrogation signal during said fracturing step; e) recording one or more reflected datasets; f) converting said one or more reflected datasets into a continuous record; g) transforming the continuous record with a low-pass filter transform with a range of greater than 0 to 50 millihertz (mHz) to provide a transformed record; h) down sampling the transformed record; i) interpreting the down-sampled transformed record to provide an interpreted record; j) optimizing said pre-determined parameters of said hydraulic fracturing stimulation using said interpreted record to provide optimized parameters; and
,k) using said optimized parameters for fracturing a subsequent stage in said reservoir. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of optimizing a hydraulic fracturing stimulation model comprising:
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a) installing a fiber optic cable in a treatment well; b) installing a fiber optic cable in an observational well situated near said treatment well; c) attaching each fiber optic cable to an interrogator; d) performing at least one stage of a multistage hydraulic fracturing stimulation in said treatment well according to a hydraulic fracturing plan; e) interrogating each fiber optic cable with an interrogation signal during said performing step; f) recording a reflected dataset from each interrogator; g) converting each reflected dataset into a continuous record by merging the record from the same interrogator; h) transforming each continuous record with a low-pass filter transform with a range of greater than 0 to 50 mHz and down sampling the data to provide a transformed record; i) interpreting each transformed record to provide an interpreted record; j) optimizing said hydraulic fracturing stimulation plan using each interpreted record; and k) implementing an optimized hydraulic fracturing plan in subsequent fracturing stages in said reservoir. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
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Specification