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Walter Russell Dinkins

from Tulsa, OK
Age ~64
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Also known as:
Walter R Dinkins, Walter R Denkins
Phone and address:
7941 S Yukon Ave, Tulsa, OK 74132
(907) 360-0422
Related to:
Damali M Dinkins, 29Jared B Dinkins, 30Rebecca E Dinkins, 62
Connected to:
Bettina Dinkins, 64Beverly S Dinkins, 55Bobby G Dinkins, 38Brian S Dinkins, 47Caitlin Dinkins, 58Claude H Dinkins, 66Curtis A Dinkins, 41Dana Dinkins, 57Donta D Dinkins, 49Irvin Dinkins, 52

Walter Dinkins Phones & Addresses

  • 7941 S Yukon Ave, Tulsa, OK 74132 (907) 360-0422
  • 17619 Oklahoma St, Tulsa, OK 74116 (918) 438-0706
  • Claremore, OK
  • 11210 Willene Dr, Anchorage, AK 99516 (907) 349-1686
  • 9321 Flintlock St, Anchorage, AK 99507 (907) 349-1686
  • Broken Arrow, OK
  • Decatur, GA
  • 11210 Willene Dr, Anchorage, AK 99516 (907) 272-0239

Work

Position: Professional/Technical

Education

Degree: Graduate or professional degree

Publications

Us Patents

Apparatus For Fluidizing Formation Fines Settling In Production Well

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US Patent:
8215407, Jul 10, 2012
Filed:
Jul 22, 2009
Appl. No.:
12/507724
Inventors:
Walter Dinkins - Anchorage AK, US
Assignee:
Baker Hughes Incorporated - Houston TX
International Classification:
E21B 43/16
US Classification:
166371, 166369
Abstract:
The present invention relates to a method and apparatus for reducing the occurrences of lateral wellbores being occluded by fines such as sand and silt. More specifically, the invention relates to discharging a portion of the output of an electrical submersible pump through nozzles that pass through the sidewalls of tubing, the tubing being located in the lateral wellbore.

Fallback Prevention Valve Apparatus, System And Method

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US Patent:
20190360302, Nov 28, 2019
Filed:
May 22, 2018
Appl. No.:
16/486806
Inventors:
- Houston TX, US
Walter Russell DINKINS - Tulsa OK, US
International Classification:
E21B 34/08
E21B 43/12
Abstract:
A fallback prevention valve apparatus, system and method is described. An electric submersible pump (ESP) fallback prevention system includes an ESP assembly positioned in a downhole well, the ESP assembly including production tubing extending between a centrifugal pump and a surface of the downhole well such that during operation of the ESP assembly production fluid flows upward from the centrifugal pump through the production tubing to the surface, the production tubing including a fallback valve actuatable by the flow of production fluid, the fallback valve actuatable between an open position, wherein production fluid flowing upward through the fallback valve actuates the fallback valve into the open position, and a closed position, wherein production fluid flowing downward through the fallback valve actuates the fallback valve into the closed position, the closed position blocking sand carried by the production fluid from falling into the centrifugal pump.

Crossover System And Apparatus For An Electric Submersible Gas Separator

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US Patent:
20190249537, Aug 15, 2019
Filed:
Aug 8, 2018
Appl. No.:
16/335223
Inventors:
- Houston TX, US
Thomas John GOTTSCHALK - Houston TX, US
Walter Russell DINKINS - Tulsa OK, US
Jimmie Allen BUCKALLEW - Coliinsville OK, US
International Classification:
E21B 43/38
F04D 13/10
B01D 19/00
E21B 43/12
Abstract:
A crossover system, method and apparatus for an electric submersible pump (ESP) gas separators. A crossover of an ESP gas separator includes a first helical pathway for higher density fluid that extends at an angle of 10 to 40 from a horizontal plane through the crossover, the first helical pathway fluidly coupled to a spider bearing including crescent shaped vanes that remove rotational momentum from the higher density fluid, a second helical pathway for lower density fluid that tangentially intersects a crossover jacket, the first helical pathway and the second helical pathway defined by a channel having teardrop shaped openings in the crossover jacket that define channel exit ports venting to a casing annulus, and teardrop shaped openings in a crossover skirt that define a channel entrance, where the first helical pathway is around the channel and the second helical pathway is through an inside of the channel.

Apparatus, System And Method For Live Well Artificial Lift Completion

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US Patent:
20180340403, Nov 29, 2018
Filed:
Aug 3, 2018
Appl. No.:
16/054718
Inventors:
- Tulsa OK, US
John Farrar HEDGES - Cochrane, CA
Walter Russell DINKINS - Tulsa OK, US
International Classification:
E21B 43/12
E21B 17/02
E21B 17/20
E21B 33/03
F04D 1/06
E21B 33/12
F04D 13/10
Abstract:
A method of live well artificial lift completion includes hanging an umbilical on a wellhead of a live well, the umbilical fluidly coupling a production pump to a well surface and electrically coupling an electric motor to a surface power source, the electric motor powering the production pump. The umbilical includes coiled tubing surrounded by a jacket. The umbilical also includes power cables extruded inside the jacket to form a smooth jacket outer surface. The method also includes creating a pressure seal inside the umbilical during deployment of the umbilical into the live well, the pressure seal inside the umbilical created using a blowout plug positioned to block a discharge of the production pump. The method further includes forming an annular pressure seal during deployment of the production pump to obtain well control, the annular pressure seal formed using an annular bag coupled to the wellhead.

Apparatus, System And Method For Live Well Artificial Lift Completion

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US Patent:
20170328186, Nov 16, 2017
Filed:
May 10, 2017
Appl. No.:
15/592119
Inventors:
- Tulsa OK, US
John Farrar Hedges - Cochrane, CA
Walter Russell Dinkins - Tulsa OK, US
International Classification:
E21B 43/12
E21B 33/12
E21B 17/20
E21B 33/03
F04D 13/10
F04D 1/06
Abstract:
An apparatus, system and method for live well artificial lift completion. A live well artificial lift completion system includes an artificial lift pump discharge, a discharge adapter body secured between the artificial lift pump discharge and an umbilical, the discharge adapter body including an electrical connector fastened to an exterior of the discharge adapter body, an inner diameter of the discharge adapter body fluidly coupled to the artificial lift pump discharge, the umbilical including coiled tubing supportively hanging from an umbilical hanger within a wellhead, the umbilical hanger positioned in a tubing head spool, an inner diameter of the coiled tubing fluidly coupled to the inner diameter of the discharge adapter body, a jacket surrounding the coiled tubing, and a power cable extruded inside the jacket, wherein the power cable is connectable between the electrical connector of the discharge adapter body and a surface power source.
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Walter Russell Dinkins from Tulsa, OK, age ~64 Get Report