Of The Telluric Type Patents (Class 324/349)
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Patent number: 8917094Abstract: Downhole tools and techniques acquire information regarding nearby conductors such as pipes, well casing, and conductive formations. At least some method embodiments provide a current flow along a drill string in a borehole. The current flow disperses into the surrounding formation and causes a secondary current flow in the nearby conductor. The magnetic field from the secondary current flow can be detected using one or more azimuthally-sensitive antennas. Direction and distance estimates may be obtainable from the azimuthally-sensitive measurements, and can be used as the basis for steering the drillstring relative to the distant conductor. Possible techniques for providing current flow in the drillstring include imposing a voltage across an insulated gap or using a toroid around the drillstring to induce the current flow.Type: GrantFiled: May 12, 2011Date of Patent: December 23, 2014Assignee: Halliburton Energy Services, Inc.Inventors: Michael S. Bittar, Jing Li
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Patent number: 8330464Abstract: Disclosed herein is a three dimensional small bin electromagnetic consecutive array data acquisition method used in oil exploration comprising the steps of recording data using small bin lattices on execution of arrangement electrodes, each acquisition station (Ex, Ey) records the natural electromagnetic field time series data with the same acquisition parameter simultaneously; interference is removed first, for recorded data processing to get interference-free data; for border points and center point, the recording point serves as center point, and the same component from adjacent two points to total points area added together to obtain the average value of electric field data at time domain for each observation point; for corner points, the average values of the same electric field component from adjacent two points to total survey points toward bin direction is calculated; the electric field components acquired in maximum space serve as the new electric field values respectively; new time series data acquiType: GrantFiled: September 22, 2010Date of Patent: December 11, 2012Assignees: China National Petroleum Corporation, BC-P Inc., China National Petroleum CorporationInventors: Zhanxiang He, Weibin Sun, Yongtao Wang, Deqiang Tao, Zuzhi Hu, Weifeng Luo, Yue Zhang
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Patent number: 8177943Abstract: The invention is directed to mixtures of polysilanes macroscopically solid at ambient temperature wherein the individual components of the composition SinH2n and/or SinH2n+2 of which decompose before they are boiling at an applied process pressure and which are produced from the hydrogenation of plasmachemically generated largely chlorinated polysilane mixtures. These mixtures of polysilanes are especially suited to be applied onto surfaces as solutions or dispersions and to obtain silicon-based structures or layers in subsequent process steps. Furthermore, they are especially safe in handling and can be additionally made up into transport forms in suitable transport containers.Type: GrantFiled: March 12, 2009Date of Patent: May 15, 2012Assignee: Spawnt Private S.A.R.L.Inventors: Norbert Auner, Sven Holl, Christian Bauch, Gerd Lippold, Rumen Deltschew
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Patent number: 7822562Abstract: Method for removing air wave noise from shallow water controlled source electromagnetic survey data, using only the measured data and conductivity values for sea water (140) and air. The method is a calculation performed numerically on CSEM data and resulting in an estimate of those data that would have been acquired had the water layer extended infinitely upward from the seafloor. No properties of the sub-sea sediments are used. Synthetic electromagnetic field data are generated for (a) an all water model (141) and (b) an air-water model (146-147) of the survey region. These simulated results are then used to calculate (148-150) electromagnetic field values corresponding to a water-sediment model with water replacing the air half space, which represent measured data adjusted to remove air wave noise.Type: GrantFiled: May 18, 2007Date of Patent: October 26, 2010Assignee: ExxonMobil Upstream Research Co.Inventor: Willen E. Dennis
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Publication number: 20100172205Abstract: A method for marine geophysical surveying according to one aspect of the invention includes towing at least one geophysical sensor streamer in a body of water. The streamer includes a plurality of spaced apart electromagnetic field receivers disposed at spaced apart locations along the streamer. The streamer also includes a plurality of seismic sensors disposed at spaced apart locations. The seismic sensors each include at least one pressure responsive receiver and at least one particle motion responsive receiver. At selected times, a seismic energy source is actuated in the water. Particle motion and pressure seismic signals, and electromagnetic field signals are detected at the respective receivers.Type: ApplicationFiled: January 5, 2009Publication date: July 8, 2010Inventors: Oyvind Hillesund, Nils Lunde
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Patent number: 7126339Abstract: A golf club head comprising of a front plate integral with a primary body having a top, a sole, a rear portion, and a general periphery wherein the primary body and the front plate define a hollow interior and where the rear portion carries a weighting element that protrudes behind the general periphery.Type: GrantFiled: July 31, 2002Date of Patent: October 24, 2006Assignee: Mizuno CorporationInventors: Masao Nagai, David G. Llewellyn
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Patent number: 5043667Abstract: A method of magnetotelluric exploration is described, wherein measures of the earth's electric and magnetic fields are obtained at a plurality of sensing locations comprising an areal array of sensing locations. Specifically, first and second components of the earth's electric field are measured at a plurality of sensing locations within an areal array of sensing locations whereby each of the components of the earth's electric field are spatially continuous. Additionally, first and second components of the earth's magnetic field are measured simultaneously at at least one location within the area covered by the areal arrays of sensing locations.Type: GrantFiled: April 21, 1989Date of Patent: August 27, 1991Assignee: Amoco CorporationInventor: James D. Schofield
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Patent number: 4945310Abstract: A geophysical prospecting method of measuring potentials existing in the air in the area of the lower atmosphere between about one and ten meters above the surface of the earth in order to detect petroleum accumulations and mineral deposits below the surface of the earth. The method mounts a detector device is mounted on the front bumper of an off-the-road vehicle and moves the vehicle across the surface of a given area of earth in a more or less continuous fashion. Changes in the electron flow through the ion field at the surface of the earth to increased and decreased resistivity values in the crust of the earth are recorded.Type: GrantFiled: June 16, 1989Date of Patent: July 31, 1990Assignees: J. R. Jackson, A. M. Arismendi, Jr.Inventor: John R. Jackson
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Patent number: 4841250Abstract: A geophysical prospecting detector device and method of measuring potentials existing in the air in the area of the lower atmosphere between about one and ten meters above the surface of the earth in order to detect petroleum accumulations and mineral deposits below the surface of the earth. A detector device is mounted on the front bumper of an off-the-road vehicle and the vehicle is moved across the surface of a given area of earth in a more or less continuous fashion. Changes in the electron flow through the ion field at the surface of the earth to increased and decreased resistivity values in the crust of the earth are recorded.Type: GrantFiled: January 24, 1986Date of Patent: June 20, 1989Assignees: J. R. Jackson, A. M. (Andy) Arismendi, Jr.Inventor: John R. Jackson
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Patent number: 4812766Abstract: An improved method and apparatus for detecting telluric noise information while performing induced polarization prospecting. Telluric noise electrodes are positioned on an equipotential line lying about an input current electrode forming part of a conventional IP electrode spread. The telluric noise record obtained from the noise electrodes is essentially free of IP input signal waveform.Type: GrantFiled: November 2, 1987Date of Patent: March 14, 1989Assignee: Atlantic Richfield CompanyInventor: James D. Klein
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Patent number: 4686475Abstract: An improved passive telluric current system for geophysical prospecting having a sensor responsive to the electric field component of the telluric current for producing a capacitive charge, a tuner for deconvoluting the sensed electric field telluric signal, and a cross-over circuit for generating a stereo audio output containing the telluric information into a low band audio signal and into a high band audio signal in order to enhance the frequency transitions contained in the telluric signal in the ears of the operator.Type: GrantFiled: July 12, 1984Date of Patent: August 11, 1987Assignee: Denver Mineral Exploration Corp.Inventors: Carl L. Kober, H. David Procter-Gregg
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Patent number: 4473800Abstract: A method for removing the effects of said subsurface anomalies in magnetotelluric survey data is disclosed wherein resistivity curves are compared and a correction factor is determined. Resistivity curves having a deviation from a mean are multiplied by this correction factor.Type: GrantFiled: September 21, 1982Date of Patent: September 25, 1984Assignee: Mobil Oil CorporationInventor: Barry N. Warner
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Patent number: 4409551Abstract: An electrode for use in telluric electrical energy measurements is disclosed which has the property of easy, rapid installation and retrieval while maintaining electrical stability. The electrode is durable and much more easily stored than prior art telluric electrical survey electrodes.Type: GrantFiled: August 11, 1980Date of Patent: October 11, 1983Assignee: Mobil Oil CorporationInventor: Lonnie J. Norton
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Patent number: 4339720Abstract: Apparatus and method for generating a record of telluric noise which is substantially free of induced polarization signals and is suitable for removal of noise components from induced polarization signal records. The apparatus includes a single pair of telluric noise sensing electrodes positioned in alignment with, but substantially beyond the ends of, a somewhat conventional induced polarization electrode spread. The method includes recording of telluric noise occurring at the time of detection of induced polarization signals and the subtraction of a fraction of the telluric noise record from the induced polarization signal records.Type: GrantFiled: April 4, 1980Date of Patent: July 13, 1982Assignee: The Anaconda CompanyInventor: Mark O. Halverson
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Patent number: 4210869Abstract: In magneto-telluric geophysical exploration, the earth's electric telluric field in two orthogonal directions is determined. Electrodes are positioned on the earth's surface so that measured potentials between adjacent electrodes measures the earth's telluric field in known directions. These measurements are converted to signals representing the earth's telluric field in two specified orthogonal directions. The measurements are made between electrodes spaced along a cable which is laid on the ocean floor.Type: GrantFiled: April 2, 1979Date of Patent: July 1, 1980Assignee: Mobil Oil CorporationInventors: Goethe M. Groenendyke, deceased, Gustave L. Hoehn, Jr.