Patent application number | Description | Published |
20130032401 | METHODS AND SYSTEMS FOR DRILLING - A method of steering a drill bit to form an opening in a subsurface formation, comprises a) determining a distance from design of a well, and b) determining an angle offset from design of the well wherein angle offset from design is the difference between the inclination and azimuth of the hole and the inclination and azimuth of plan, c) wherein at least one distance from design and at least one angle offset from design are determined in real time based, at least in part, on a position of the hole at the last survey, a position at a projected current location of the bit, and a projected position of the bit. | 02-07-2013 |
20130032407 | METHODS AND SYSTEMS FOR DRILLING - A method of controlling a direction of a toolface of a bottom hole assembly for slide drilling, comprises a) synchronizing the toolface wherein synchronizing the toolface comprises determining a relationship between the rotational position of the down hole toolface with a rotational position at the surface of the formation for at least one point in time, b) stopping rotation of the drill string coupled to the bottom hole assembly, c) controlling torque at the surface of the drill string to control a rotational position of the toolface, and d) commencing a slide of the drill string. | 02-07-2013 |
20130270005 | METHODS AND SYSTEMS FOR DRILLING - A method of controlling a direction of drilling of the drill string used to form an opening in a subsurface formation, comprises varying a speed of the drill string during rotational drilling such that the drill string is at a first speed during a first portion of the rotational cycle and at a second speed during a second portion of the rotational cycle wherein the first speed is higher than the second speed, and wherein operating at the second speed in the second portion of the rotational cycle causes the drill string to change the direction of drilling. | 10-17-2013 |
20130277111 | METHODS AND SYSTEMS FOR DRILLING - A method of automatically placing a drill bit used to form an opening in a subsurface formation on a bottom of the opening being formed comprises a) increasing a flow rate in a drill string to a target flow; b) controlling a flow rate of fluid into the drill string to be substantially the same as a flowrate of fluid out of the opening; c) allowing a fluid pressure to reach a relatively steady state; and d) automatically moving the drill bit toward the bottom of the opening at a selected rate of advance until an increase in measured differential pressure indicates that the drill bit is at the bottom of the opening. | 10-24-2013 |
20130277112 | METHODS AND SYSTEMS FOR DRILLING - A method of automatically picking up a drill bit off the bottom of an opening in a subsurface formation, comprises a) setting a predetermined level of differential pressure across a mud motor at which pickup of the drill bit is to be initiated; b) monitoring the differential pressure across the mud motor; c) allowing differential pressure across the mud motor to decrease to the predetermined level; and d) when the predetermined level is reached, automatically picking up the drill bit. | 10-24-2013 |
20140041941 | METHODS AND SYSTEMS FOR DRILLING - A method of assessing hole cleaning effectiveness of drilling comprises a) determining a mass of cuttings removed from a well wherein determining the mass of cuttings removed from a well comprises: i) measuring a total mass of fluid entering a well; ii) measuring a total mass of fluid exiting the well; and iii) determining a difference between the total mass of fluid exiting the well and total mass of fluid entering the well; b) determining a mass of rock excavated in the well; and c) determining a mass of cuttings remaining in the well wherein determining the mass of cuttings remaining in the well comprises: determining a difference between the determined mass of rock excavated in the well and the determined mass of cuttings removed from the well. | 02-13-2014 |
20140291023 | MONITORING OF DRILLING OPERATIONS WITH FLOW AND DENSITY MEASUREMENT - A system includes one or more sensors configured to sense at least one characteristic of fluid entering a well, one or more sensors configured to sense at least one characteristic of fluid exiting a well; and one or more control systems that receive data from at least one of the sensors. | 10-02-2014 |
Patent application number | Description | Published |
20090073807 | GENERATING SEISMIC VIBRATOR SIGNALS - A method and apparatus for generating a seismic source signal are provided for generating energy in the form of a plurality of time sequence vibratory signals, the vibratory signals being partitioned as a function of time and/or frequency, wherein each of the plurality of signals comprises a distinguishing signature. The partitioned vibratory signals are emitted into a terrain of interest as seismic source signals for conducting a seismic survey. | 03-19-2009 |
20100008186 | FLEXURAL WAVE ATTENUATION - A seismic information processing method and apparatus includes attenuating flexural wave noise information from seismic information. Flexural wave information removal includes receiving the seismic information using an information processing device interface, the seismic information having a plurality of directional components acquired using a multi-axis motion sensor coupled to ice floating on a body of water, the seismic information including desired seismic information and the flexural wave information. A noise model of the flexural wave information may be generated using at least one of the plurality of seismic information directional components using an information processing device. The noise model is improved using an adaptive correction filter, and the improved noise model is applied to at least one directional component of the received seismic information to attenuate the flexural wave information wave in the seismic information. | 01-14-2010 |
20100149915 | Acquiring Seismic Vibrator Signals Having Distinguishing Signatures - A method and apparatus for generating a seismic source signal are provided for generating energy in the form of a plurality of time sequence vibratory signals, the vibratory signals being partitioned as a function of time and/or frequency, wherein each of the plurality of signals comprises a distinguishing signature. The partitioned vibratory signals are emitted into a terrain of interest as seismic source signals for conducting a seismic survey. | 06-17-2010 |
20100149916 | Processing Seismic Vibrator Signals Having Distinguishing Signatures - A method and apparatus for generating a seismic source signal are provided for generating energy in the form of a plurality of time sequence vibratory signals, the vibratory signals being partitioned as a function of time and/or frequency, wherein each of the plurality of signals comprises a distinguishing signature. The partitioned vibratory signals are emitted into a terrain of interest as seismic source signals for conducting a seismic survey | 06-17-2010 |
20100149922 | Apparatus for Generating Seismic Signals Having Distinguishing Signatures - A method and apparatus for generating a seismic source signal are provided for generating energy in the form of a plurality of time sequence vibratory signals, the vibratory signals being partitioned as a function of time and/or frequency, wherein each of the plurality of signals comprises a distinguishing signature. The partitioned vibratory signals are emitted into a terrain of interest as seismic source signals for conducting a seismic survey | 06-17-2010 |
20100157734 | Generating Seismic Vibrator Signals Having Distinguishing Signatures - A method and apparatus for generating a seismic source signal are provided for generating energy in the form of a plurality of time sequence vibratory signals, the vibratory signals being partitioned as a function of time and/or frequency, wherein each of the plurality of signals comprises a distinguishing signature. The partitioned vibratory signals are emitted into a terrain of interest as seismic source signals for conducting a seismic survey. | 06-24-2010 |
20110085414 | Flexural Wave Attenuation - A seismic information processing method and apparatus includes attenuating flexural wave noise information from seismic information. Flexural wave information removal includes receiving the seismic information using an information processing device interface, the seismic information having a plurality of directional components acquired using a multi-axis motion sensor coupled to ice floating on a body of water, the seismic information including desired seismic information and the flexural wave information. A noise model of the flexural wave information may be generated using at least one of the plurality of seismic information directional components using an information processing device. The noise model is improved using an adaptive correction filter, and the improved noise model is applied to at least one directional component of the received seismic information to attenuate the flexural wave information wave in the seismic information. | 04-14-2011 |
Patent application number | Description | Published |
20100036702 | Asset Management Systems and Methods - Systems, methods, and software for reliability, hazard, and integrity optimization are disclosed. In at least some embodiments, the software includes an input module, a failure model module, a simulation module, and an optimization module. The input module accepts a list of assets to be managed and determines design data and process data for each asset. The failure model module determines probability of failure curve parameters for each asset degradation mode. The simulation module simulates an asset management plan to determine a total management cost that includes costs for predicted failures as well as risk-weighted costs for each degradation mode of each asset generates alternative management plans for evaluation by the simulation module and provides a selected management plan for display to a user. In each embodiment, the total management costs may account not only for direct costs, but also for safety costs, environmental costs, and business costs. | 02-11-2010 |
20100036866 | Piping Circuitization System and Method - In a disclosed method for creating a pipe circuit, a diagram is displayed on a display screen. The diagram includes representations of multiple pipes to be included in the pipe circuit, and a line number corresponding to each of the pipes. Selection input indicative of each of the pipes is received in sequence, and the pipe circuit is assigned a pipe circuit number. A described computer system includes a display screen, a memory, and one or more processors. The memory contains instructions for: displaying the diagram on the display screen, parsing the line numbers to capture engineering data for the pipe circuit, changing a display color of each of the representations of the pipes to a selected color, and exporting information about each of the pipes in the pipe circuit to a database. The processor(s) fetch the instructions from the memory and execute the instructions. | 02-11-2010 |