Antenna of an electromagnetic probe for investigating geological formations
First Claim
1. An antenna (3) of an electromagnetic probe used in investigation of geological formations (GF) surrounding a borehole (WBH) comprising a conductive base (31) and an antenna element (32), the conductive base (31) comprising an opened non-resonant cavity (33), the antenna element (32) being embedded in the cavity (33) and going right through the cavity, the antenna element (32) being isolated from the conductive base (31), the antenna element (32) being coupled to at least one electronic module via a first (34A) and a second (34B) port, respectively, the electronic module configured to apply a current distribution to the antenna element via one or more of the first and second ports, such that the antenna is operated in a substantially pure magnetic dipole when the current distribution is applied to the antenna such that current increases from a first end of the antenna to a middle portion of the antenna, and then decreases from the middle portion of the antenna to a second end of the antenna, and a substantially pure electric dipole when the current distribution is applied to the antenna such that current increases from the first end of the antenna to the second end of the antenna.
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Accused Products
Abstract
An antenna 3 of an electromagnetic probe used in investigation of geological formations GF surrounding a borehole WBH comprises a conductive base 31 and an antenna element 32. The conductive base 31 comprises an opened non-resonant cavity 33. The antenna element 32 is embedded in the cavity 33 and goes right through the cavity. The antenna element 32 is isolated from the conductive base 31. The antenna element 32 is coupled to at least one electronic module via a first 34A and a second 34B port, respectively. The electronic module operates the antenna so as to define either a substantially pure magnetic dipole, or a substantially pure electric dipole.
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Citations
16 Claims
- 1. An antenna (3) of an electromagnetic probe used in investigation of geological formations (GF) surrounding a borehole (WBH) comprising a conductive base (31) and an antenna element (32), the conductive base (31) comprising an opened non-resonant cavity (33), the antenna element (32) being embedded in the cavity (33) and going right through the cavity, the antenna element (32) being isolated from the conductive base (31), the antenna element (32) being coupled to at least one electronic module via a first (34A) and a second (34B) port, respectively, the electronic module configured to apply a current distribution to the antenna element via one or more of the first and second ports, such that the antenna is operated in a substantially pure magnetic dipole when the current distribution is applied to the antenna such that current increases from a first end of the antenna to a middle portion of the antenna, and then decreases from the middle portion of the antenna to a second end of the antenna, and a substantially pure electric dipole when the current distribution is applied to the antenna such that current increases from the first end of the antenna to the second end of the antenna.
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11. An electromagnetic logging apparatus used in investigation of geological formations (GF) surrounding a borehole (WBH), comprising:
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a logging tool (TL) moveable through the borehole, an electromagnetic probe (1) comprising a pad (2) mounted on the logging tool (TL), adapted for engagement with the borehole wall (WBW) by a wall-engaging face of the pad, at least one antenna (Tu, Td) mounted in the wall-engaging face and used as a transmitting antenna, a plurality of spaced antennas (Ru, Rd) mounted in the wall-engaging face and used as receiving antennas positioned in spaced relation to the transmitting antenna (Tu, Td), a transmitter module (4T) adapted for energizing the transmitting antenna to transmit electromagnetic energy into the formations at a determined frequency, wherein the transmitter module is configured to operate the at least one antenna in a substantially pure magnetic dipole by applying a current distribution to the at least one antenna such that the current increases from a first end of the antenna to a middle portion of the antenna, and then decreases from the middle portion of the antenna to a second end of the antenna, and wherein the transmitter module is configured to operate the at least one antenna in a substantially pure electric dipole by applying a current distribution to the at least one antenna such that current increases from the first end of the antenna to the second end of the antenna, and a receiver module (4R) adapted for receiving and processing an output signal at each of the receiving antennas representative of electromagnetic energy received from the formations.
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12. A method of investigation of geological formations (GF) surrounding a borehole (WBH) using an electromagnetic logging apparatus comprising at least one transmitting antenna (Tu, Td) and at least one receiving antenna (Ru, Rd), wherein the method comprises the steps of:
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a) running the logging apparatus through the borehole and engaging a pad with a borehole wall so as to define a selected zone made of a medium to be investigated, b) performing a first set of measurements at a deep radial depth of investigation in the selected zone by; b1) operating the antennas so that each antenna defines a substantially pure magnetic dipole (MDM), and radiating electromagnetic signals in the medium, wherein the antennas are operated in the MDM when a current distribution applied to each antenna increases from a first end of the antenna to a middle portion of the antenna, and then decreases from the middle portion of the antenna to a second end of the antenna, b2) measuring a first set of attenuation and phase shift of the electromagnetic signals having traveled in the medium between the transmitting and receiving antennas, c) performing a second set of measurements at a shallow radial depth of investigation in the selected zone by; c1) operating the antennas so as each antenna defines a substantially pure electric dipole (EDM), wherein the antennas are operated in EDM when a current distribution applied to each antenna increases from the first end of the antenna to the second end of the antenna, c2) radiating electromagnetic signals into the formation surrounding the borehole and measuring a first sub-set of attenuation and phase shift of the electromagnetic signals having traveled in the formation between the transmitting and receiving antennas, c3) radiating electromagnetic signals into the formation surrounding the borehole and measuring a second sub-set of magnitude and phase of the electromagnetic signals reflected by the formation at a transmitting antenna input, and d) performing an inversion calculation based on the first and second set of measurements and determining a permittivity ∈ and
a conductivity σ
of the in the selected zone. - View Dependent Claims (13, 14, 15, 16)
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Specification