Class / Patent application number | Description | Number of patent applications / Date published |
340856300 | Including particular sensor | 16 |
20080252479 | DEPTH MEASUREMENT BY DISTRIBUTED SENSORS - A downhole device, position verifiable string includes a downhole device; a string in operable communication with downhole device; and a plurality of sensor units each sensing at least one of acceleration and strain in the string and spaced from each other along the string from downhole device to a remote location of the drill string and method. | 10-16-2008 |
20080291048 | Use of flexible member for borehole diameter measurement - The downhole tool disclosed herein comprises a body, a flexible member attached to the body, and a transducer housed in the body. The flexible member compresses against one side of the wellbore and urges the body against the other side. The transducer emits a signal to the flexible member reflectable from the flexible member back to the transducer. The signal travel time from the transducer to the flexible member and back is analyzed for estimating the distance between the body and the flexible member. The standoff distance can be estimated from the distance between the body and the flexible member. From the standoff distance, the wellbore diameter is estimated. The tool may also obtain wellbore dimensions by obtaining near side wellbore standoff and using a magnetic ruler to determine bowspring flexing. The magnetic ruler results may be used in conjunction with or without the far side standoff data. | 11-27-2008 |
20100171639 | WELLBORE TELEMETRY AND NOISE CANCELLATION SYSTEMS AND METHODS FOR THE SAME - A method of signal processing includes providing at least a first pressure sensor and a second pressure sensor spaced in a drilling system and using an algorithm to separate the downwardly propagating waves from the upwardly propagating waves. In one or more examples, an algorithm may include determining a velocity of pressure signals in a wellbore, time-shifting and stacking pressure signals from at least the first pressure sensor and the second pressure sensor to determine a downwardly propagating noise signal, and subtracting the downwardly propagating noise signal from at least the signal from the first pressure sensor. | 07-08-2010 |
20100259416 | METHOD OF DETERMINING A LEVEL OF A FLUID IN A WELL - A sensor used to determine the height of one or more fluids in a fluid column and to determine a location of an interface or boundary between a plurality of fluids in a fluid column is disclosed. The sensor includes a plurality of sensing elements comprising a capacitor and other components, such as resistors and inductors. The sensor also includes an oscillator that alters a frequency of an electrical current applied to the sensor, from which the dielectric constant of the fluid in which each sensing element is disposed can be determined. Methods of using such a sensor to determine the relative heights of various fluids in a fluid column are disclosed. In particular, methods of using embodiments of the invention in a well, such as water and petroleum wells, are described. | 10-14-2010 |
20100295703 | METHOD AND APPARATUS FOR INITIALIZATION OF A WELLBORE SURVEY TOOL - An apparatus for initializing a wellbore survey tool comprises a base portion and a first mounting portion mechanically coupled to the base portion. The first mounting portion can be adapted to be mechanically coupled to at least one directional reference system configured to provide data indicative of an orientation of the at least one directional reference system with respect to a reference direction. The apparatus of certain embodiments further comprises a second mounting portion mechanically coupled to the base portion, the second mounting portion configured to be mechanically coupled to a wellbore survey tool such that the wellbore survey tool has a predetermined orientation with respect to the at least one directional reference system. | 11-25-2010 |
20110050453 | ELECTRONIC CONTROL SYSTEM FOR DRILLING DEVICES - An electronic control system for drilling devices, includes at least one pair of data-processing units ( | 03-03-2011 |
20110109470 | SYSTEM AND METHOD FOR DETECTING CASING IN A FORMATION USING CURRENT - The present disclosure is directed to systems and methods for relative positioning of wells. A method in accordance with an exemplary embodiment may include drilling a new well in a field having at least three completed wells using a drilling tool that includes a magnetometer. The method may further include driving current on a first pair of the at least three completed wells and then driving current on a second pair of the at least three completed wells, wherein the current is driven on each of the first and second pairs in a balanced mode. The method may also include measuring a direction of a first magnetic field generated by the current on the first pair using the magnetometer, measuring a direction of a second magnetic field generated by the current on the second pair using the magnetometer, and determining a location of the drilling tool relative to the completed wells based on the direction of the first magnetic field and the direction of the second magnetic field. | 05-12-2011 |
20120007747 | METHOD AND SYSTEM FOR TRANSMITTING DATA FROM A DEVICE TO A RECEIVING UNIT - The invention relates to a method for transmitting data from a device, such as is used in endoscopy or microsurgery, for example, to a receiving unit, wherein a magnetic dipole disposed in or on the device is rotationally driven, the data are generated by a change in the rotational frequency of the magnetic dipole, and the changing magnetic field of the magnetic dipole is received and analyzed by the receiving unit, wherein the rotational speed range in which the magnetic dipole can be driven is divided into partial ranges, each associated with a type of data. | 01-12-2012 |
20120223839 | Apparatus and Method for Measuring Weight and Torque at Downhole Locations while Landing, Setting, and Testing Subsea Wellhead Consumables - 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. | 09-06-2012 |
20130088364 | METHOD AND APPARATUS FOR MAKING RESISTIVITY MEASUREMENTS IN A WELLBORE - During drilling of an earth borehole, resistance measurements may be made at the drill bit through use of a bottom hole assembly that includes a drill bit having a sensor, such as an electrode, located generally at an exterior surface of the drill bit. The current will be induced in the formation from multiple transmitters, at least one of which will be supported on, or very close to the drill bit. Connection mechanisms are described that enable the releasable engagement of electrical conductors to circuitry within the drill bits. The obtained resistivity measurements at the drill bit can be used for many purposes, including formation imaging and geosteering of the drilling operation. | 04-11-2013 |
20130154847 | SYSTEM AND METHOD FOR MONITORING DOWN-HOLE FLUIDS - In one aspect the present invention provides a down-hole monitoring system, comprising one or more pieces of down-hole equipment, for example a down-hole logging tool, and at least one resonant sensor for obtaining physical and chemical parameters of a down-hole fluid in proximity to the sensor. In another aspect, the present invention provides a method for detecting material properties of a down-hole fluid, the method comprising placing a resonant LCR sensor within a piece of down-hole equipment, taking sensor readings down-hole, transmitting the sensor readings to a reader device, and analyzing the sensor readings. | 06-20-2013 |
20130207814 | NON-UNIFORM ECHO TRAIN DECIMATION - Method and apparatus using at least one process to reduce a data set using a data adaptive down-sampling scheme comprising a plurality of non-uniform down-sampling factors. The method may include separating the data set into a plurality of data windows, where each of the plurality of data windows corresponds to one of the plurality of non-uniform data-sampling factors; applying the down-sampling factors, and transmitting the reduced data set from a downhole location to the surface. The data set may include an NMR echo train. The apparatus may include an NMR tool configured to acquire NMR data and at least one processor configured to perform the method. | 08-15-2013 |
340856400 | Acoustic or vibratory (e.g., sonic, fluidic, etc.) | 4 |
20090195408 | METHODS AND APPARATUS FOR HIGH-SPEED TELEMETRY WHILE DRILLING - A seismic and/or acoustic while drilling configuration includes a high speed telemetry arrangement; at least one seismic and/or acoustic energy sensor in communication with the high speed telemetry arrangement; at least one seismic and/or acoustic energy source capable of producing at least one seismic and/or acoustic energy signal receivable by the at least one seismic and/or acoustic energy sensor and methods. | 08-06-2009 |
20110199228 | Use of Micro-Electro-Mechanical Systems (MEMS) in Well Treatments - A method of servicing a wellbore, comprising placing a plurality of Micro-Electro-Mechanical System (MEMS) sensors in a wellbore composition, placing the wellbore composition in the wellbore, obtaining data from the MEMS sensors using a plurality of data interrogation units spaced along a length of the wellbore, and telemetrically transmitting the data from an interior of the wellbore to an exterior of the wellbore using a conduit positioned in the wellbore. A system, comprising a wellbore extending the earth's surface, a conduit positioned in the wellbore, a wellbore composition positioned in the wellbore, the wellbore composition comprising a plurality of Micro-Electro-Mechanical System (MEMS) sensors, and a plurality of data interrogation units spaced along a length of the wellbore and adapted to obtain data from the MEMS sensors and telemetrically transmit the data from an interior of the wellbore to an entrance of the wellbore via the conduit. | 08-18-2011 |
20120019394 | SURFACE ACOUSTIC WAVE TRANSPONDER PACKAGE FOR DOWN-HOLE APPLICATIONS - A method and apparatus for packaging surface acoustic wave transponders for use in down-hole or other extreme environmental applications is provided. An exemplary ID tag transponder may include a surface acoustic wave (SAW) piezoelectric device, wire bonds, antennae structure, an antenna reflector, a radome, and a base constructed of a conductive, non-magnetic metal or metal alloy adapted to withstand an extreme environment encountered in down-hole applications. The metallic base may have a notched lip or flange about its periphery that is adapted for pressure fitting into the milled cylindrical orifice located on the exterior surface of a tool asset. In some embodiments, an exemplary SAW piezoelectric device may be attached directly onto an antenna substrate and wire bonded directly to an antenna. An RF reflector is created inside an exemplary transponder tag device. A small amount of predetermined gas is held on top of the SAW piezoelectric device within the reflector cavity to accommodate acoustic wave propagation therein. Exemplary components of a transponder tag are enclosed and hermetically sealed within and between a radome top portion and the metallic base bottom portion. | 01-26-2012 |
20150137987 | JOINT TIME-FREQUENCY PROCESSING FOR BOREHOLE ACOUSTIC ARRAYS - Various embodiments include apparatus and methods to process acoustic signals according to joint time-frequency processing. The joint time-frequency processing can combine features of both time-based processing and frequency-based processing. This processing may be based on delay calculation from amplitude phases generated from the acoustic signals. The joint time-frequency processing may be applied to a variety of applications to evaluate properties associated with a borehole or surrounding formations. Additional apparatus, systems, and methods are disclosed. | 05-21-2015 |