A perforating system having a perforating gun with shaped charges, a chassis sub, a communication line in communication with a controller and extending through the chassis sub and perforating gun, a selectively opened and closed continuity switch in the communication line, a lead line connecting the
A perforating system having a perforating gun with shaped charges, a chassis sub, a communication line in communication with a controller and extending through the chassis sub and perforating gun, a selectively opened and closed continuity switch in the communication line, a lead line connecting the communication line to a detonator, and an arming switch in the lead line. A method of testing the detonator involves confirming electrical continuity through the detonator.
대표청구항▼
1. A perforating system comprising: a perforating gun with shaped charges;a communication line in the perforating gun that is in communication with a controller;a detonator in the perforating gun;a means for delivering a test flow of electricity through the detonator that is applied before an initia
1. A perforating system comprising: a perforating gun with shaped charges;a communication line in the perforating gun that is in communication with a controller;a detonator in the perforating gun;a means for delivering a test flow of electricity through the detonator that is applied before an initiation of the detonator and below a threshold level necessary for initiating, the detonator; anda means for measuring the test flow of electricity. 2. The perforating system of claim 1, wherein the means for measuring a flow of electricity through the detonator comprises an electrical meter connected in series with an electrical outlet portion of the detonator. 3. The perforating system of claim 1, further comprising a selectively opened and closed continuity switch having an end connected to the communication line and another end connected to a lead line, where the lead line connects to the detonator. 4. The perforating system of claim 1, further comprising a chassis sub on an upper end of the perforating gun and having a selectively openable and closeable arming switch in the communication line and a ground switch connected between the communication line and ground. 5. The perforating system of claim 1, further comprising a plurality of perforating guns, shaped charges in each of the perforating guns, and detonators in the perforating guns, wherein the means for measuring a flow of electricity through the detonator is electrically connected to each detonator. 6. The perforating system of claim 1, further comprising a line connecting the communication line with the detonator, wherein the communication line is coupled with an electrical source, and wherein the means for measuring a flow of electricity through the detonator is disposed in the line. 7. A perforating system comprising: a string of perforating guns;shaped charges in the perforating guns and that are connected to detonating cords in the perforating guns;a communication line in the perforating gun that is in communication with a controller;a detonator in the perforating gun having an electrical inlet line and an electrical outlet line that connects between the detonator and ground;a system for supplying a test current to one of the detonators; andan electrical meter connected to the one of the detonators, so that when the test current flows from the communication line through one of the detonators and to ground and prior to initiation of the one of the detonators, the electrical meter can monitor the flow of the test current. 8. The perforating system of claim 7, further comprising a resistor in the electrical outlet line, and wherein the test current flows from the detonator through the electrical outlet line and Wherein the meter connects to the electrical outlet line between the detonator and the resistor. 9. The perforating system of claim 7, where the meter connects to the electrical inlet line between the detonator and the communication line and to a line connecting between the one of the detonators and ground. 10. The perforating system of claim 7, further comprising a selectively opened and closed continuity switch having an end connected to the communication line and another end connected to the electrical inlet line. 11. The perforating system of claim 7, further comprising a chassis sub on an upper end of the string and having a selectively openable and closeable arming switch in the communication line and a ground switch connected between the communication line and ground. 12. The perforating system of claim 7, further comprising an electrical source controlled by a controller and for providing electricity to the detonators. 13. A method of wellbore operations comprising: a. providing a perforating string comprising a perforating gun, a shaped charge in the perforating gun, a detonator that is in selective electrical communication with an electrical source,b. inserting the perforating string into the wellbore;c. flowing an amount of electricity to the detonator that is below a threshold amount for initiating detonation of the detonator;d. monitoring electrical flow through the detonator; ande. determining the detonator is in electrical communication with an electrical source when an amount of electrical flow through the detonator is detected. 14. The method of claim 13, further comprising (f) perforating the wellbore by flowing an amount of electricity to the detonator that is above the threshold amount for initiating detonation of the detonator, and wherein a depth at which the perforating string is in the wellbore during steps (c)-(e) is less than a depth at which the perforating string is in the wellbore during step (f). 15. The method of claim 13, wherein the detonator comprises an electrical outlet line and wherein step (d) comprises measuring electrical potential at a location along the electrical outlet line. 16. The method of claim 13, wherein the detonator comprises an electrical inlet line and wherein step (d) comprises measuring a flow of electricity through the electrical outlet line. 17. The method of claim 13, wherein the perforating system further comprises a switch between the electrical source and the detonator, the method further comprising moving the switch from an open position to a dosed position.
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