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Stephen N Dymmock

from Spring, TX
Age ~51
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Connected to:
Anthony Dymnicki, 73Roger L Dymock, 72Aaron J Dymond, 46Brandon Dymond, 30Brett A Dymond, 41Courtney A Dymond, 42Debbie L Dymond, 66Jayson W Dymond, 53Jeremy Dymond, 36Julia R Dymond, 41

Stephen Dymmock Phones & Addresses

  • Spring, TX
  • Houston, TX
  • Montgomery, TX
  • 30103 Granum Dr, Spring, TX 77386

Education

Degree: High school graduate or higher

Resumes

Resumes

Stephen Dymmock Photo 1

Geology & Imaging Manager At Baker Hughes

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Position:
Geology & Imaging Manager at Baker Hughes
Location:
Houston, Texas Area
Industry:
Oil & Energy
Work:
Baker Hughes
Geology & Imaging Manager
Stephen Dymmock Photo 2

Senior Global Advisor

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Location:
Houston, TX
Industry:
Oil & Energy
Work:
Baker Hughes May 1, 2009 - Jul 2017
Global Geology and Imaging Manager
Baker Hughes Dec 2006 - May 2009
Staff Geologist
Baker Hughes Jan 2003 - Dec 2006
Senior Geologist
Baker Hughes May 2000 - Jan 2003
Geologist
Baker Hughes Oct 1996 - May 1997
Geologist and Log Analyst
Education:
Imperial College London 1992 - 1996
Dollar Academy 1986 - 1992
Skills:
Geology
Formation Evaluation
Logging
Petroleum Geology
Petroleum
Wireline
Log Analysis
Oilfield
Structural Geology
Earth Science
Borehole Imaging
Petrophysics
Well Logging
Upstream
Drilling
Lwd
Techlog
Stratigraphy
Sequence Stratigraphy
Mineral Exploration
Reservoir Geology
Digital Photography
Geochemistry
Training Delivery
Panoramic Photography
Python
Train the Trainer
Interests:
Science and Technology
Languages:
English

Publications

Us Patents

Disposing A Carrier Downhole In A Wellbore To Evaluate An Earth Formation

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US Patent:
20190383131, Dec 19, 2019
Filed:
Jun 4, 2019
Appl. No.:
16/430490
Inventors:
Fei Le - Houston TX, US
Julio Roberto Arro - Cipolletti, AR
Stephen N. Dymmock - Spring TX, US
Stanislav Forgang - Houston TX, US
Hermanus J. Nieuwoudt - Tomball TX, US
Assignee:
Baker Hughes, a GE company, LLC - Houston TX
International Classification:
E21B 47/01
G01N 27/22
Abstract:
An example method includes disposing a carrier in a borehole in an earth formation. The carrier includes a logging assembly for performing a formation evaluation of the earth formation using a sensor in proximity to a borehole wall of the borehole, fluid being disposed at least partially between the sensor and the borehole wall. The method further includes estimating an apparent dielectric loss angle of the fluid to determine a stand-off effect caused by the fluid. The method further includes estimating a formation dielectric loss angle and determining a formation resistance based at least in part on the formation dielectric loss angle. The method further includes adjusting the formation evaluation based at least in part on the estimated formation resistance that accounts for the stand-off effect caused by the fluid. The method further includes performing a wellbore operation based at least in part on the adjusted formation evaluation.

Formation Acoustic Property Measurement With Beam-Angled Transducer Array

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US Patent:
20180372902, Dec 27, 2018
Filed:
Jun 23, 2017
Appl. No.:
15/632024
Inventors:
- Houston TX, US
Jason M. Harris - Cypress TX, US
Douglas J. Patterson - Magnolia TX, US
Stephen Dymmock - Spring TX, US
John Dahl - Spring TX, US
Assignee:
BAKER HUGHES INCORPORATED - Houston TX
International Classification:
G01V 1/50
Abstract:
Methods and apparatus for performing formation evaluation in a borehole intersecting an earth formation. Methods may include exciting at a first borehole depth at least one critical refraction wave by steering an acoustic beam transmitted by at least one ultrasonic transmitter to an interface in the formation to intercept the interface at a critical angle; receiving an acoustic signal comprising critical refraction wave data at a logging tool in the borehole; and obtaining a wave property measurement from the critical refraction wave data. The interface may be the borehole wall in an open-hole well or behind casing. Methods include using ultrasonic transmitter(s) to generate the plurality of acoustic beams, identifying critical refraction wave data within the response signal corresponding to the at least one critical refraction wave, and obtaining the wave property measurement from the critical refraction wave data.
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Stephen N Dymmock from Spring, TX, age ~51 Get Report