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Don C Conkle

from Cambridge, OH
Age ~92
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Also known as:
Don Charles Conkle, Don P Conkle, Don E Conkle, Donald C Conkle
Phone and address:
10003 Foothills Ln, Cambridge, OH 43725
(740) 432-3475
Related to:
Jamie WeirJulie Slade, 57Beulah SladeBeulah Slade, 87Milton Slade, 68
Connected to:
Christian W Conkle, 38Dallas J Conkle, 77Eddie L Conkle, 65Eric D Conkle, 57Jeremey E Conkle, 48Julie T Conkle, 47Kelly Conkle, 35Lori M Conkle, 62Rethal G Conkle, 81Mary K Conklen, 64

Don Conkle Phones & Addresses

  • 10003 Foothills Ln, Cambridge, OH 43725 (740) 432-3475
  • 9949 Foothills Ln, Cambridge, OH 43725 (740) 432-7784
  • 9975 Foothills Ln, Cambridge, OH 43725 (740) 432-7784
  • 1 Foothills Ln, Cambridge, OH 43725
  • 23207 Two Harbors Glen St, Katy, TX 77494 (972) 679-6971

Work

Company: Carbo ceramics inc. Jul 2020 Position: Chief executive officer

Education

Degree: Bachelors, Bachelor of Science School / High School: Marietta College 1982 to 1986 Specialities: Petroleum Engineering

Skills

Energy • Marketing • Sales • Ceramics

Emails

d***[email protected]

Industries

Oil & Energy

Public records

Vehicle Records

Don Conkle

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Address:
23207 2 Hbr Gln St, Katy, TX 77494
VIN:
4YMUL08157T068807
Make:
BMW
Model:
X5-Series AWD 4dr 4.8i
Year:
2007

Resumes

Resumes

Don Conkle Photo 1

Chief Executive Officer

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Location:
Katy, TX
Industry:
Oil & Energy
Work:
Carbo Ceramics Inc.
Chief Executive Officer
Schlumberger Jun 2011 - Sep 2012
Vice President Marketing and Technology, Production Group
Schlumberger 2009 - 2011
Vice President and General Manager, Qatar and Yemen
Schlumberger 2006 - 2009
Global Vice President, Fracturing and Stimulation Services
Schlumberger Mar 2003 - Apr 2006
Vice President and General Manager, Us Central and Northeastern Operations
Education:
Marietta College 1982 - 1986
Bachelors, Bachelor of Science, Petroleum Engineering
Skills:
Energy
Marketing
Sales
Ceramics

Publications

Us Patents

Stimulation Through Fracturing While Drilling

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US Patent:
20090151938, Jun 18, 2009
Filed:
Dec 18, 2007
Appl. No.:
11/959278
Inventors:
Don Conkle - Katy TX, US
Ashley Johnson - Milton, GB
J. Ernest Brown - Cambridge, GB
Trevor McLeod - Calgary, CA
Matthew Miller - Cambridge, GB
Philip Sullivan - Bellaire TX, US
Dean Willberg - Tucson AZ, US
International Classification:
E21B 43/26
US Classification:
1662541, 1663081
Abstract:
A method for preparing a formation surrounding a wellbore to bear hydrocarbons through a borehole is disclosed. In one step, a bottomhole assembly is inserted into the borehole. The formation is drilled with the bottomhole assembly. The formation may be characterized with logging tools, probes, sensors, seismic system and/or the like to create first information. One or more fractures are placed in the formation without removal of the bottomhole assembly from the wellbore. Further, continuous drilling of the formation is performed with the bottomhole assembly after/during placing the fractures. Further characterizing of the formation with the probes, sensors/systems or the like is performed to produce second information. Another fracture is placed with feedback from the second information. Repeating the drilling, characterizing and placing of fractures as necessary during the formation preparing process.

Tagged Chemical Diverter

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US Patent:
20190187326, Jun 20, 2019
Filed:
Feb 25, 2019
Appl. No.:
16/284718
Inventors:
- Houston TX, US
Bradley TODD - Duncan OK, US
Don CONKLE - Katy TX, US
International Classification:
G01V 5/10
C09K 8/42
C09K 8/90
C09K 8/86
C09K 8/68
C09K 8/66
E21B 47/10
C09K 8/80
Abstract:
The present disclosure provides methods for identifying chemical diverter material placed in a borehole region and provides chemical diverter material. In one embodiment, a method for detecting diverter material placed in a borehole region includes (a) obtaining a first data set by: emitting pulses of neutrons from the pulsed neutron source into the borehole region and detecting capture gamma rays resulting from nuclear reactions in the borehole region; (b) placing a diverter material comprising aqueous-swellable particles and a thermal neutron absorbing material into the borehole region; (c) obtaining a second data set by: emitting pulses of neutrons from the first pulsed neutron source or a second pulsed neutron source into the borehole region, and detecting capture gamma rays in the borehole; and (d) comparing the first data set and the second data set to determine the location of diverter material placed in the borehole region.

Micromesh Proppant And Methods Of Making And Using Same

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US Patent:
20190010386, Jan 10, 2019
Filed:
Jul 3, 2018
Appl. No.:
16/026599
Inventors:
- Houston TX, US
Don CONKLE - Katy TX, US
International Classification:
C09K 8/80
C04B 35/10
C04B 35/64
Abstract:
The present disclosure relates to a micromesh proppant for use in hydraulic fracturing of oil and gas wells. In one embodiment, a process for forming proppant particles includes providing a slurry comprising a ceramic raw material containing alumina, atomizing the slurry into droplets, coating seeds comprising alumina with the droplets to form green pellets, sintering the green pellets to form sintered pellets, and breaking the sintered pellets to form proppant particles comprising a sintered ceramic material and having a size of from about 150 mesh to about 500 mesh and a crush strength at 7,500 psi of from about 1% to about 20%. In one embodiment, a proppant particle includes a sintered ceramic material and having a size of from about 150 mesh to about 500 mesh and a crush strength at 7,500 psi of from about 1% to about 20%.

Tagged Chemical Diverter

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US Patent:
20180180762, Jun 28, 2018
Filed:
Dec 22, 2017
Appl. No.:
15/853273
Inventors:
- Houston TX, US
Bradley TODD - Duncan OK, US
Don CONKLE - Katy TX, US
International Classification:
G01V 5/10
C09K 8/42
Abstract:
The present disclosure provides methods for identifying chemical diverter material placed in a borehole region and provides chemical diverter material. In one embodiment, a method for detecting diverter material placed in a borehole region includes (a) obtaining a first data set by: emitting pulses of neutrons from the pulsed neutron source into the borehole region and detecting capture gamma rays resulting from nuclear reactions in the borehole region; (b) placing a diverter material comprising aqueous-swellable particles and a thermal neutron absorbing material into the borehole region; (c) obtaining a second data set by: emitting pulses of neutrons from the first pulsed neutron source or a second pulsed neutron source into the borehole region, and detecting capture gamma rays in the borehole; and (d) comparing the first data set and the second data set to determine the location of diverter material placed in the borehole region.
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Don C Conkle from Cambridge, OH, age ~92 Get Report