| Patent application number | Description | Published |
|---|
| 20080230272 | Method and System for Designing Bottom Hole Assembly Configuration - A method and system for designing bottom hole assembly configuration. The system and method include modeling the bottom hole assembly by dividing complicated BHA configurations into independent modules and segments. Modules are bounded by two stabilizers where segments are bounded by bottom hole assembly components. A recursive process is used to derive solutions for each of the segments and modules. Only two unknowns (and two non-linear equations) are left when the recursive process reaches to the bit. The two unknowns are then solved by iteration. | 09-25-2008 |
| 20080314642 | Tubular Member Connection - In some embodiments, an apparatus and a system, as well as a method and an article, may operate to couple, in a substantially fluid-tight manner, a first tubular member ( | 12-25-2008 |
| 20090045973 | COMMUNICATIONS OF DOWNHOLE TOOLS FROM DIFFERENT SERVICE PROVIDERS - In some embodiments, an apparatus comprises a tubular for downhole operations. The tubular comprises a bottomhole assembly. The bottomhole assembly comprises a first downhole tool having a first sensor that is to generate a first data, wherein a first entity is at least one of a controller or an owner of the first downhole tool. The bottomhole assembly comprises a second downhole tool having a second sensor that is to generate a second data, wherein a second entity is at least one of a controller or an owner of the second downhole tool. The first data and the second data are to be coded in a common format. The bottomhole assembly also comprises a processor to execute instructions to receive and process the first data and the second data. | 02-19-2009 |
| 20100193246 | Device and Method for Measuring a Property in a Downhole Apparatus - A method and device for measuring a property, such as torque, includes a plurality of sensors, and a measuring device. The sensors attach to a downhole apparatus at a distance from one another. The sensors provide signals indicating their positions. A logic circuit may calculate an angle between the sensors. The logic circuit then calculates the property based on the angle, the distance between the sensors, and other known physical properties of the downhole apparatus. | 08-05-2010 |
| 20100236776 | Downhole X-Ray Source Fluid Identification System and Method - A method and system for determining a property of a sample of fluid in a borehole. A fluid sample is collected in a downhole tool. While collecting, X-rays are transmitted proximate the fluid from an X-ray source in the tool and an X-ray flux that is a function of a property of the fluid is detected. The detected X-ray flux data is processed to determine the property of the fluid. | 09-23-2010 |
| 20100250207 | METHOD AND APPARATUS FOR SURVEYING A BOREHOLE WITH A ROTATING SENSOR PACKAGE - A method and apparatus for surveying a borehole using a rotating sensor package. A sensor tool preferably including a magnetometer sensor array is disposed in the bottom hole assembly of a drillstring. Conditioning circuitry in the sensor tool processes the sensor readings from the sensor array taken while the drillstring is rotating. In one embodiment, the conditioning circuitry includes processing circuitry adapted to adjust the sensor readings to account for an analytically predicted level of axial current induced in the drillstring as a result of its rotation in the Earth's magnetic field. In another embodiment, a current generator is provided to generate a counter-current intended to cancel the analytically predicted level of axial current induced in the drillstring as a result of rotation in the Earth's magnetic field. In another embodiment, insulating members are disposed above and/or below the sensor tool to prevent conduction of rotation-induced current therein. In still another embodiment, the sensor tool is disposed in a drill collar that is composed of a non-conducting material, such that no rotation-induced current is conducted through the sensor tool. | 09-30-2010 |
| 20110108277 | Formation Treatment Using Electromagnetic Radiation - A method of treating a subterranean formation includes injecting a magnetically permeable material into the formation and energizing the magnetically permeable material using electromagnetic radiation. The magnetically permeable material reacts to the electromagnetic radiation by producing heat. In some embodiments, a fracturing fluid is made magnetically permeable, injected into the formation to fracture the formation, and heated in response to electromagnetic radiation applied to the magnetically permeable material. In some embodiments, electromagnetically heated material is caused to explode. In some embodiments, the magnetically permeable material is tracked or monitored for fluid or fracture propagation. A system includes a fluid treatment tool ( | 05-12-2011 |
| 20110109912 | APPARATUS AND METHOD FOR DETECTING PRESSURE SIGNALS - An apparatus comprising an encoded pressure signal propagating in a fluid flowing in a conduit. An optical fiber measurement element has a reflector on one end and is disposed around at least a portion of the conduit. A light source injects a second optical signal and a third optical signal propagating in first and second optical fibers, respectively. A delay section is disposed in the second optical fiber. The second optical signal and the third optical signal are directed into the optical fiber measurement element and are reflected back from the reflective end such that at least a portion of the reflected second and third optical signals propagate through the second and first optical fibers respectively to an optical detector. The optical detector senses an interference between the reflected optical signals and outputs a first signal related thereto. | 05-12-2011 |
| 20110116099 | APPARATUS AND METHOD FOR DETECTING PRESSURE SIGNALS - An apparatus for detecting data in a fluid pressure signal in a conduit comprises an optical fiber loop comprises a measurement section and a delay section wherein the measurement section is disposed substantially circumferentially around at least a portion of the conduit, and wherein the measurement section changes length in response to the fluid pressure signal in the conduit. A light source injects a first optical signal in a first direction into the measurement section and a second optical signal in a second direction opposite the first direction into the delay section. An optical detector senses an interference phase shift between the first optical signal and the second optical signal and outputs a first signal related thereto. | 05-19-2011 |
| 20110153217 | DRILLSTRING MOTION ANALYSIS AND CONTROL - Apparatus, systems, and methods may operate to obtain acceleration data from an operational drillstring, decompose the acceleration data into one or more empirical modes, monitor the amplitude of at least one of the empirical modes to detect indications exceeding a preselected threshold, and modify drillstring operational parameters comprising at least one of rotational speed, weight on bit, or mud flow, based on the indications. Additional apparatus, systems, and methods are disclosed. | 06-23-2011 |
