Monitoring of wells to detect the composition of matter in boreholes and propped fractures
First Claim
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1. A system comprising:
- a processor;
a plurality of resonant tags, wherein each resonant tag further comprises;
a cylindrical array comprising a plurality of structures arranged to form a second hollow cylinder;
a dielectric material configured to fill the second hollow cylinder; and
a binder configured to adhere the filled cylindrical array to a borehole-facing wall of a well casing of an oil well borehole such that the plurality of resonant tags are adhered to the borehole-facing wall of the well casing; and
an interrogator configured to interrogate a channel associated with the oil well borehole between the interrogator and the plurality of resonant tags adhered to the borehole-facing wall using a frequency-modulated radio frequency (RF) signal such that the frequency-modulated RF signal covers an expected range of resonant frequencies for the plurality of resonant tags adhered to the borehole-facing wall within the channel, and wherein the processor is configured to characterize a dielectric constant for a medium in the channel using signal strengths of resonant reflections received by the interrogator from the plurality of resonant tags adhered to the borehole-facing wall within the channel.
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Abstract
There is provided a system and method for monitoring of fractured wells and conventional wells to detect leaks. The method comprises interrogating a plurality of resonant tags using a modulated RF signal transmitted from an interrogator, wherein the plurality of resonant tags are dispersed within a channel.
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Citations
12 Claims
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1. A system comprising:
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a processor; a plurality of resonant tags, wherein each resonant tag further comprises; a cylindrical array comprising a plurality of structures arranged to form a second hollow cylinder; a dielectric material configured to fill the second hollow cylinder; and a binder configured to adhere the filled cylindrical array to a borehole-facing wall of a well casing of an oil well borehole such that the plurality of resonant tags are adhered to the borehole-facing wall of the well casing; and an interrogator configured to interrogate a channel associated with the oil well borehole between the interrogator and the plurality of resonant tags adhered to the borehole-facing wall using a frequency-modulated radio frequency (RF) signal such that the frequency-modulated RF signal covers an expected range of resonant frequencies for the plurality of resonant tags adhered to the borehole-facing wall within the channel, and wherein the processor is configured to characterize a dielectric constant for a medium in the channel using signal strengths of resonant reflections received by the interrogator from the plurality of resonant tags adhered to the borehole-facing wall within the channel. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method comprising:
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interrogating, using a frequency-modulated radio frequency (RF) signal transmitted from an interrogator, a channel associated with an oil well borehole between the interrogator and a plurality of resonant tags adhered to a borehole-facing wall of a well casing of the oil well borehole such that the frequency-modulated RF signal covers an expected range of resonant frequencies for the plurality of resonant tags adhered to the borehole-facing wall within the channel, wherein each resonant tag further comprises; a cylindrical array comprising a plurality of structures arranged to form a second hollow cylinder; a dielectric material configured to fill the second hollow cylinder; and a binder configured to adhere the filled cylindrical array to the borehole-facing wall of the well casing of the oil well borehole such that the plurality of resonant tags are adhered to the borehole-facing wall of the well casing; determining, using a processor, signal strengths of resonant reflections received by the interrogator from the plurality of resonant tags adhered to the borehole-facing wall within the channel; and characterizing a dielectric constant for a medium in the channel using the determined signal strengths. - View Dependent Claims (9, 10)
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11. A method, comprising:
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advancing an interrogator through an oil well borehole to sampled locations within the oil well borehole, wherein the oil well borehole includes a well casing having a plurality of resonant tags lining a borehole-facing wall of the well casing of the oil well borehole, wherein each resonant tag further comprises; a cylindrical array comprising a plurality of structures arranged to form a second hollow cylinder; a dielectric material configured to fill the second hollow cylinder; and a binder configured to adhere the filled cylindrical array to the borehole-facing wall of the well casing of the oil well borehole such that the plurality of resonant tags are adhered to the borehole-facing wall of the well casing; at each sampled location, interrogating, using a frequency-modulated radio frequency (RF) signal transmitted from the interrogator, resonant tags at the sampled location from the plurality of resonant tags adhered to the borehole-facing wall to characterize a dielectric constant for a channel between the interrogator and the interrogated resonant tags at the sampled location such that the frequency-modulated RF signal covers an expected range of resonant frequencies for the interrogated resonant tags adhered to the borehole-facing wall within the channel by determining, using a processor, signal strengths of resonant reflections received by the interrogator from the interrogated resonant tags at the sample location; and based upon the characterized dielectric constants at each sampled locations, determining whether the well casing is compromised. - View Dependent Claims (12)
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Specification