Apparatus and method for measuring weight and torque at downhole locations while landing, setting, and testing subsea wellhead consumables
First Claim
1. A system for running a subsea wellhead component from a surface platform, comprising:
- a running tool having an upper end for coupling to a running string lowered from the platform, the running tool adapted to carry and set the component in a subsea wellhead;
a dynamometer stem having a bidirectional torque and weight sensor and adapted to be coupled inline to a lower end portion of the running string, and further coupled to the running tool, so that the dynamometer stem will measure an applied torque and weight at the running tool and produce a sensor signal in response, the dynamometer stem comprising;
a tubular body having a first portion and a second recessed portion, the second recessed portion defining a recess for accepting the sensor; and
a sleeve circumscribing the recessed portion of the tubular body, and sealingly engaged with the tubular body to protect the sensor from the environment outside the sleeve;
an acoustic transmitter mounted to the dynamometer stem and electrically connected to the torque and weight sensor for receiving the sensor signal from the torque and weight sensor, the acoustic transmitter being configured to transmit an acoustic signal through the running string;
a receptor stem adapted to be coupled inline to an upper end portion of the running string above sea level;
an acoustic receiver mounted to the receptor stem for receiving the acoustic signal from the acoustic transmitter;
a radio frequency (RF) transmitter mounted to the receptor stem and electrically connected to the acoustic receiver for transmitting an RF signal that correlates with the acoustic signal received by the acoustic receiver;
an RF receiver adapter to be located on the platform for receiving the RF signal from the RF transmitter; and
a display connected with the RF receiver for displaying the signal in real time to an operator on the platform.
1 Assignment
0 Petitions
Accused Products
Abstract
A dynamometer measures applied weight and torque at a running tool location and transmits the measured information to a drilling rig operator. The system includes a dynamometer stem having a bidirectional torque and weight sensor coupled inline to the drill string, and further coupled to the running tool, so that the dynamometer stem will measure an applied torque and weight at the running tool and produce a signal in response. The dynamometer stem communicatively couples to a receptor stem, so that the receptor stem may receive the signal from the dynamometer stem. The receptor stem couples inline to the drill string at a rotary table of the drilling rig, and further communicatively couples to a display located proximate to an operator of the drilling rig, so that the receptor stem may transmit the signal to the display. The display presents the signal in real time to the operator.
24 Citations
11 Claims
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1. A system for running a subsea wellhead component from a surface platform, comprising:
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a running tool having an upper end for coupling to a running string lowered from the platform, the running tool adapted to carry and set the component in a subsea wellhead; a dynamometer stem having a bidirectional torque and weight sensor and adapted to be coupled inline to a lower end portion of the running string, and further coupled to the running tool, so that the dynamometer stem will measure an applied torque and weight at the running tool and produce a sensor signal in response, the dynamometer stem comprising; a tubular body having a first portion and a second recessed portion, the second recessed portion defining a recess for accepting the sensor; and a sleeve circumscribing the recessed portion of the tubular body, and sealingly engaged with the tubular body to protect the sensor from the environment outside the sleeve; an acoustic transmitter mounted to the dynamometer stem and electrically connected to the torque and weight sensor for receiving the sensor signal from the torque and weight sensor, the acoustic transmitter being configured to transmit an acoustic signal through the running string; a receptor stem adapted to be coupled inline to an upper end portion of the running string above sea level; an acoustic receiver mounted to the receptor stem for receiving the acoustic signal from the acoustic transmitter; a radio frequency (RF) transmitter mounted to the receptor stem and electrically connected to the acoustic receiver for transmitting an RF signal that correlates with the acoustic signal received by the acoustic receiver; an RF receiver adapter to be located on the platform for receiving the RF signal from the RF transmitter; and a display connected with the RF receiver for displaying the signal in real time to an operator on the platform. - View Dependent Claims (2)
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3. A system for running a subsea wellhead component from a surface platform, comprising:
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a running string adapted to be lowered from the platform to a subsea wellhead; a running tool having an upper end coupled to a lower end portion of the running string, the running tool adapted to carry and set the component in the subsea wellhead; the running tool having a rotary device for exerting a setting force in response to rotation; a dynamometer stem having a bidirectional load cell, the dynamometer stem being coupled inline to the running string and further coupled to the running tool, the dynamometer stem comprising; a tubular body having a first portion and a second recessed portion, the second recessed portion defining a recess for accepting the load cell; and a sleeve circumscribing the second recessed portion of the tubular body, and sealingly engaged with the tubular body to protect the load cell from the environment outside the sleeve; an acoustic signal transmitter coupled to the dynamometer stem and the bidirectional load cell; the acoustic signal transmitter configured to receive a plurality of load cell signals from the bidirectional load cell and transmit acoustic signals in response through the running string; an acoustic signal receptor coupled to an upper end portion of the running string and adapted to be above sea level for receiving the acoustical signals transmitted through the running string; a radio frequency (RF) transmitter mounted to the upper end portion of the running string and electrically connected to the acoustic receiver for transmitting RF signals proportional to the acoustic signals received by the acoustic receiver; an RF receiver adapted to be located on the platform for receiving the RF signals; and a display adapted to be located on the platform and configured to present the RF signals received by the RF receiver in a manner understood by an operator on the platform and mounted such that an operator may visually monitor the display in real time. - View Dependent Claims (4)
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5. A method for running a subsea wellhead device from a floating platform, comprising:
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(a) providing a running tool weight and torque sensing system coupled inline to a lower end portion of a running string and to a running tool connected to a subsea wellhead device, the weight and torque sensing system having a sensor that senses weight and torque applied to the running tool and an acoustic transmitter, the weight and torque sensing system including a dynamometer stem that comprises; a tubular body having a first portion and a second recessed portion, the second recessed portion defining a recess for accepting the sensor; and a sleeve circumscribing the second recessed portion of the tubular body, and sealingly engaged with the tubular body to protect the sensor from the environment outside the sleeve; (b) lowering the running string and the sensing system down a subsea riser, coupling an acoustic receiver and radio frequency (RF) receiver inline to an upper end portion of the running string above sea level, and positioning the subsea wellhead device in engagement with a subsea wellhead assembly; (c) operating the running tool to set the subsea device in the wellhead assembly; (d) with the sensor, sensing weight and torque imposed on the running tool, and with the acoustic transmitter, transmitting an acoustic signal up the running string proportional to the weight and torque sensed;
then(e) with the acoustic receiver, receiving the acoustic signal, and with the RF transmitter, transmitting an RF signal proportional to the acoustic signal to an RF receiver and a display at a drilling rig on the platform. - View Dependent Claims (6, 7, 8, 9, 10, 11)
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Specification