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Lucio Nelson Tello

from Fort Worth, TX
Age ~77
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Also known as:
Lucio N Tello, Alejandro Tello Lucio, N Tello, Tello Lucio
Phone and address:
4112 Twilight Trl, Fort Worth, TX 76126
(817) 249-4806
Related to:
Annette T Banda, 62Veronica Tello, 44Claudia M Tello, 48Ariel TelloSantos Tello
Connected to:
Alice Tello, 55Alicia M Tello, 66Ann M Tello, 62April M Tello, 34Berenice Tello, 37Bernardo Tello, 59Betty Tello, 68Bryant R Tello, 32Carlota Tello, 78Chris L Tello, 47

Lucio Tello Phones & Addresses

  • 4112 Twilight Trl, Fort Worth, TX 76126 (817) 249-4806
  • Benbrook, TX
  • Arlington, TX
  • 3905 Horizon Pl, Fort Worth, TX 76133

Work

Position: Executive, Administrative, and Managerial Occupations

Education

Degree: High school graduate or higher

Emails

l***[email protected]

Resumes

Resumes

Lucio Tello Photo 1

Research Scientist In Sonic And Ultrasonic Tools And Acoustic Log Analysis And Data Processing At Lutello_Consulting_Llc

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Location:
3505 23Rd St, Snyder, TX 79549
Industry:
Oil & Energy
Work:
Lutello Consulting
Research Scientist In Sonic and Ultrasonic Tools and Acoustic Log Analysis and Data Processing at Lutello_Consulting_Llc
Weatherford
Senior Research Scientist and Project Manager at Weatherford
Education:
University of Texas - College of Science 1986 - 1992
Lucio Tello Photo 2

Lucio Tello

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Publications

Us Patents

Method And Apparatus For Anchoring Tool In Borehole Conduit

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US Patent:
7252143, Aug 7, 2007
Filed:
May 25, 2004
Appl. No.:
10/853595
Inventors:
Freddie L. Sellers - Arlington TX, US
Lucio N. Tello - Benbrook TX, US
Assignee:
Computalog USA Inc. - Fort Worth TX
International Classification:
E21B 47/00
US Classification:
166217, 7315256, 16625013, 166382
Abstract:
A free point tool has at least one sensor to measure deformation of a stuck conduit in a borehole. A set of anchors is located adjacent to and on each side of the sensor. The anchors include anchor arms that move from a stowed position to an extended position. Each of the anchor arms has a pad, which pad has a contact face. The contact face is structured and arranged to engage the conduit. The pad is coupled to the respective anchor arm in an articulating manner, such as by a pin joint or a ball and socket joint. The pad can be easily coupled to or disconnected from the arm. This allows the pad to be selected for the downhole conditions, including conduit physical characteristics and environmental conditions downhole. The anchors also include cam arms coupled between the anchor arms and an actuator. There are provided at least two sets of anchor linkages of cam arms and anchor arms so as to adapt to the conduit inside diameter.

Method And Apparatus For Azimuthal Logging Of Shear Waves In Boreholes Using Optionally Rotatable Transmitter And Receiver Assemblies

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US Patent:
7471591, Dec 30, 2008
Filed:
Dec 21, 2005
Appl. No.:
11/316024
Inventors:
Lucio N. Tello - Benbrook TX, US
Thomas J. Blankinship - Fort Worth TX, US
Edwin K. Roberts - Fort Worth TX, US
Marek Kozak - Newark CA, US
Assignee:
Precision Energy Services, Inc. - Fort Worth TX
International Classification:
G01V 1/00
US Classification:
367 25, 367 31
Abstract:
An acoustic logging system with a borehole tool comprising a transmitter assembly and an axially spaced receiver assembly. The transmitter and receiver assemblies are optionally rotatable with respect to each other, depending upon the embodiment of the logging system. The logging system is designed to measure, among other parameters, the velocity (or slowness) and amplitude of shear wave energy induced by the transmitter assembly within formation penetrated by the borehole. These parameters are extracted from full wave acoustic data responses of receiver elements comprising the receiver assembly, and are measured as a function of azimuth around the borehole. These parameters are subsequently used to determine anisotropic properties of the formation, such as the azimuthal direction of formation fracturing with respect to the well borehole. Optional rotation of the transmitter and receiver assemblies minimizes adverse effects of maintaining calibration and balance of multiple transmitters and receivers.

Borehole Apparatus And Methods For Simultaneous Multimode Excitation And Reception To Determine Elastic Wave Velocities, Elastic Modulii, Degree Of Anisotropy And Elastic Symmetry Configurations

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US Patent:
7529150, May 5, 2009
Filed:
Feb 6, 2006
Appl. No.:
11/348216
Inventors:
Elan Yogeswaren - Houston TX, US
Lucio N. Tello - Benbrook TX, US
Thomas J. Blankinship - Fort Worth TX, US
Assignee:
Precision Energy Services, Ltd. - Calgary
International Classification:
G01V 1/44
G01V 1/46
US Classification:
367 25, 367 31, 367 35, 181102, 181104, 181105
Abstract:
An acoustic borehole logging system for generation and detection of multipole modes used to determine elastic properties of earth formations characterized as inhomogeneous anisotropic solids. The system concurrently generates and senses monopole, dipole, quadrupole and any higher order pole in the borehole/formation system in order to characterize the elastic properties and stress state of material penetrated by the borehole. Multipole modes of all orders are induced simultaneously without the need for separate transmitter and receiver systems. Performance of the logging system is not compromised due to eccentering of the axis of the tool in the borehole, tool tilt with respect to the axis of the borehole, or mismatch of response sensitivity of multiple receivers within the tool. The system comprises apparatus for generating and sensing acoustic signals in a borehole in an earth formation, and further comprises a processing method by which the sensor response signals are processed and analyzed to obtain desired formation parameters of interest.

Borehole Apparatus And Methods For Simultaneous Multimode Excitation And Reception To Determine Elastic Wave Velocities, Elastic Modulii, Degree Of Anisotropy And Elastic Symmetry Configurations

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US Patent:
7646674, Jan 12, 2010
Filed:
Mar 27, 2009
Appl. No.:
12/413027
Inventors:
Elan Yogeswaren - Houston TX, US
Lucio N. Tello - Benbrook TX, US
Thomas J Blankinship - Fort Worth TX, US
Assignee:
Precision Energy Services Ltd. - Calgary, Alberta
International Classification:
G01V 1/44
G01V 1/46
US Classification:
367 31, 367 35, 181102, 181104
Abstract:
An acoustic borehole logging system for generation and detection of multipole modes used to determine elastic properties of earth formations characterized as inhomogeneous anisotropic solids. The system concurrently generates and senses monopole, dipole, quadrupole and any higher order pole in the borehole/formation system in order to characterize the elastic properties and stress state of material penetrated by the borehole. Multipole modes of all orders are induced simultaneously without the need for separate transmitter and receiver systems. Performance of the logging system is not compromised due to eccentering of the axis of the tool in the borehole, tool tilt with respect to the axis of the borehole, or mismatch of response sensitivity of multiple receivers within the tool. The system comprises apparatus for generating and sensing acoustic signals in a borehole in an earth formation, and further comprises a processing method by which the sensor response signals are processed and analyzed to obtain desired formation parameters of interest.

Borehole Apparatus And Methods For Simultaneous Multimode Excitation And Reception To Determine Elastic Wave Velocities, Elastic Modulii, Degree Of Anisotropy And Elastic Symmetry Configurations

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US Patent:
7755972, Jul 13, 2010
Filed:
Mar 27, 2009
Appl. No.:
12/413205
Inventors:
Elan Yogeswaren - Houston TX, US
Lucio N. Tello - Benbrook TX, US
Thomas J Blankinship - Fort Worth TX, US
Assignee:
Precision Energy Services, Ltd. - Calgary, Alberta
International Classification:
G01V 1/48
US Classification:
367 31, 367 25, 367 35, 181104
Abstract:
An acoustic borehole logging system for generation and detection of multipole modes used to determine elastic properties of earth formations characterized as inhomogeneous anisotropic solids. The system concurrently generates and senses monopole, dipole, quadrupole and any higher order pole in the borehole/formation system in order to characterize the elastic properties and stress state of material penetrated by the borehole. Multipole modes of all orders are induced simultaneously without the need for separate transmitter and receiver systems. Performance of the logging system is not compromised due to eccentering of the axis of the tool in the borehole, tool tilt with respect to the axis of the borehole, or mismatch of response sensitivity of multiple receivers within the tool. The system comprises apparatus for generating and sensing acoustic signals in a borehole in an earth formation, and further comprises a processing method by which the sensor response signals are processed and analyzed to obtain desired formation parameters of interest.

Ultrasonic Logging Methods And Apparatus For Automatically Calibrating Measures Of Acoustic Impedance Of Cement And Other Materials Behind Casing

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US Patent:
7755973, Jul 13, 2010
Filed:
Feb 21, 2008
Appl. No.:
12/034990
Inventors:
Lucio N. Tello - Benbrook TX, US
Assignee:
Precision Energy Services, Inc. - Ft. Worth TX
International Classification:
G01V 1/40
US Classification:
367 35
Abstract:
Methods and apparatus for in situ, continuous, automatic, and real-time acoustic impedance calibration of a transducer in an acoustic logging system. By taking the frequency characteristics of the ultrasonic transducer which are present in the internal casing reflection and convolving them with the frequency characteristics of the casing being logged, a theoretical model is created with a theoretical acoustic impedance fluid producing a theoretical free pipe signal at each measure point. The measured signal is then compared to the theoretical free pipe signal thereby yielding a calibrated acoustic impedance value for at each measure point. The only model employed is in the theoretical calculation of spectrum characteristics of free pipe.

Method And Apparatus For Logging Foam Cement In Cased Boreholes

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US Patent:
7885142, Feb 8, 2011
Filed:
Oct 2, 2007
Appl. No.:
11/866221
Inventors:
Lucio N. Tello - Benbrook TX, US
Sarah D. Molder - Benbrook TX, US
Assignee:
Precision Energy Services, Inc. - Fort Worth TX
International Classification:
G01V 1/00
US Classification:
367 35, 367 69, 181105
Abstract:
An acoustic logging system that measures distribution of foam cement and other material in a casing-borehole annulus. The distribution is preferably displayed as map. A borehole tool utilizes at least one acoustic transducer with a known frequency response and mounted on a rotating scanning head that is pointed essentially perpendicular to the borehole wall. The response of the transducer is used to measure an original impedance map of material within the borehole-casing annulus. A fast Fourier transform is used to generate a FFT map from the data comprising the original impedance map. The original impedance map is then combined with the FFT map using logic rules to obtain a final impedance map that is indicative of material within the casing-borehole annulus.

Ultrasonic Cement Scanner

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US Patent:
20060067162, Mar 30, 2006
Filed:
Sep 29, 2004
Appl. No.:
10/954124
Inventors:
Thomas Blankinship - Fort Worth TX, US
Edwin Roberts - Fort Worth TX, US
Lucio Tello - Benbrook TX, US
International Classification:
G01V 1/40
US Classification:
367035000
Abstract:
An acoustic borehole logging system for parameters of a well borehole environs. Full wave acoustic response of a scanning transducer is used to measure parameters indicative of condition of a tubular lining the well borehole, the bonding of the tubular to material filling an annulus formed by the outside surface of the tubular and the wall of the borehole, the distribution of the material filling the annulus, and thickness of the tubular. A reference transducer is used to correct measured parameters for variations in acoustic impedance of fluid filling the borehole, and for systematic variations in the response of the scanning transducer. Corrections are made in real time. The downhole tool portion of the logging system is operated essentially centralized in the borehole using a centralizer that can be adjusted for operation in a wide range of borehole sizes.
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Lucio Nelson Tello from Fort Worth, TX, age ~77 Get Report