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Gary Wayne Kainer

from Tomball, TX
Age ~57
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Also known as:
Gary W Kainer, Gary M Kainer, Gary W Kiner
Phone and address:
19302 Cougar Peak Dr, Tomball, TX 77377
(281) 357-0485
Related to:
Kainer GentryDawn Rushing, 54Brandon MuesseTheresa Roulston, 54Gatlin Magee
Connected to:
Kolby Kainer, 30Frederica Kainessie, 39Moses J Kainessie, 61Za M Kaing, 46Kyle E Kaino, 39Akui Kainoa, 28Gordon Kainoa, 60Raymond Kainoa, 43Scott Kainoa, 37Dalia Kainovic, 66

Gary Kainer Phones & Addresses

  • 19302 Cougar Peak Dr, Tomball, TX 77377 (281) 357-0485
  • Katy, TX
  • Schulenburg, TX
  • La Grange, TX
  • Weimar, TX
  • Youngsville, LA
  • Lafayette, LA
  • Averill Park, NY

Work

Company: Halliburton Position: Program manager

Education

Degree: Associates School / High School: Texas State Technical College Waco 1985 to 1987 Specialities: Electronics

Skills

Petroleum • Oilfield • Upstream • Offshore Drilling • Wireline • Onshore • Completion • Oil/Gas • Gas • Formation Evaluation • Natural Gas • Oil and Gas Industry • Energy • Engineering • Drilling • Energy Industry • Project Engineering • Pressure • Logging • Field Operations • Root Cause Analysis

Industries

Oil & Energy

Resumes

Resumes

Gary Kainer Photo 1

Program Manager Logging Services

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Location:
Houston, TX
Industry:
Oil & Energy
Work:
Halliburton
Program Manager
Education:
Texas State Technical College Waco 1985 - 1987
Associates, Electronics
Skills:
Petroleum
Oilfield
Upstream
Offshore Drilling
Wireline
Onshore
Completion
Oil/Gas
Gas
Formation Evaluation
Natural Gas
Oil and Gas Industry
Energy
Engineering
Drilling
Energy Industry
Project Engineering
Pressure
Logging
Field Operations
Root Cause Analysis

Business Records

Name / Title
Company / Classification
Phones & Addresses
Gary Kainer
Partner
Kainer Dairy
Dairy Farm
3000 W Sedan Rd, Borden, TX 78962
(979) 263-5330, (979) 263-4300
Gary Wayne Kainer
Director
TEXAS STORM BASEBALL, INC
6115 Rolling Water Dr, Houston, TX 77069
19302 Cougar Peak, Tomball, TX 77377

Publications

Us Patents

Methods And Systems For Estimating Formation Resistivity And Porosity

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US Patent:
20130307546, Nov 21, 2013
Filed:
Jul 23, 2013
Appl. No.:
13/949044
Inventors:
Michael Bittar - Houston TX, US
Gary Kainer - Tomball TX, US
Marvin Rourke - Banstead, GB
Assignee:
Halliburton Energy Services, Inc. - Houston TX
International Classification:
G01V 3/08
US Classification:
324333
Abstract:
A method for analyzing a subterranean formation porosity is disclosed. The apparent dielectric constant of the subterranean formation and an apparent resistivity of the subterranean formation are measured. The measured values are used to determine a measured formation loss tangent. The formation water loss tangent can be expressed by the water dielectric constant and the water resistivity. The measured formation loss tangent and the formation water loss tangent are then used to determine at least one of an actual dielectric constant of the subterranean formation water and an actual resistivity of the subterranean formation water. The actual formation porosity may be obtained using the estimated water resistivity and water dielectric constant.

Dielectric Tool-Based Formation Porosity Logging System And Methods

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US Patent:
20140035590, Feb 6, 2014
Filed:
Sep 26, 2011
Appl. No.:
14/110803
Inventors:
Jing Li - Pearland TX, US
Gary Kainer - Tomball TX, US
Marvin Rourke - Banstead, GB
Michael Bittar - Houston TX, US
International Classification:
G01V 3/30
US Classification:
324338
Abstract:
A method and system for calculating formation porosity is presented. The method includes calculating formation porosity of a borehole by obtaining complex dielectric constant measurements with a high frequency dielectric tool. Next, a dielectric constant of formation water is derived from the complex dielectric constant measurements. Finally, a formation porosity is determined based at least in part on the measured complex dielectric constant and the derived dielectric constant formation water.

Methods And Systems For Estimating Formation Resistivity And Porosity

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US Patent:
20130027043, Jan 31, 2013
Filed:
Sep 21, 2012
Appl. No.:
13/624047
Inventors:
Jing Li - Pearland TX, US
Gary Kainer - Tomball TX, US
Marvin Rourke - Banstead, GB
Michael Bittar - Houston TX, US
International Classification:
G01V 3/10
US Classification:
324341
Abstract:
A method for analyzing a subterranean formation porosity is disclosed. The apparent dielectric constant of the subterranean formation and an apparent resistivity of the subterranean formation are measured. The measured values are used to determine a measured formation loss tangent. The formation water loss tangent can be expressed by the water dielectric constant and the water resistivity. The measured formation loss tangent and the formation water loss tangent are then used to determine at least one of an actual dielectric constant of the subterranean formation water and an actual resistivity of the subterranean formation water. The actual formation porosity may be obtained using the estimated water resistivity and water dielectric constant.

Dip Detection In Logging Image Processing

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US Patent:
20210356615, Nov 18, 2021
Filed:
Mar 28, 2019
Appl. No.:
16/488676
Inventors:
- Houston TX, US
David Orlando Torres - Bastrop TX, US
Gary Wayne Kainer - Tomball TX, US
International Classification:
G01V 1/34
G06K 9/00
G06T 3/40
Abstract:
A method for imaging a downhole formation. The method includes combining the captured images to generate a partial image of the formation, wherein the partial image includes captured images separated by gaps representing portions of the formation not captured with sensors what were disposed downhole. The method includes locating dips in the formation within the partial image and interpolating the partial image using the located dips within the partial image.

Dip Correction For Non-Circular Borehole And Off-Center Logging

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US Patent:
20210332692, Oct 28, 2021
Filed:
Dec 17, 2018
Appl. No.:
16/495096
Inventors:
- Houston TX, US
David Orlando Torres - Bastrop TX, US
Gary Wayne Kainer - Tomball TX, US
International Classification:
E21B 47/002
G01V 3/20
E21B 47/125
E21B 47/026
Abstract:
A method includes deploying a logging tool in a borehole formed in a subsurface formation. The logging tool has a transmitter and a receiver. The method includes emitting, by the transmitter, a signal into subsurface formation. The method includes detecting, by the receiver, a response to the signal being propagated through the subsurface formation. The method includes creating, from the response, a borehole image that includes distorted features representing bedding dips in the subsurface formation. The method includes correcting the distorted features, wherein correcting the distorted features comprises mapping points of a non-circular shape in the borehole image to points on a circular shape.

Electromagnetic Imager Design

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US Patent:
20210140301, May 13, 2021
Filed:
Nov 8, 2019
Appl. No.:
16/679002
Inventors:
- Houston TX, US
Luis Emilio San Martin - Houston TX, US
Gary Wayne Kainer - Tomball TX, US
Assignee:
Halliburton Energy Services, Inc. - Houston TX
International Classification:
E21B 47/00
E21B 49/08
G01N 21/85
Abstract:
A method for identifying an operating frequency may comprise performing a frequency sweep using one or more injector electrodes disposed on a downhole tool, recording one or more measurements from the frequency sweep, identifying one or more stable frequencies from the frequency sweep, and identifying one or more operating frequencies from the one or more stable frequencies. A system for electrical isolation may comprise a downhole tool, a pad, an arm, wherein the arm is attached to the mounting bracket and the mandrel, and an information handling system connected to the pad through the first set of electronics and the second set of electronics. The downhole tool may comprise a mandrel, a chassis disposed in the mandrel, and a first set of electronics disposed in the chassis.

Iterative Borehole Shape Estimation Of Cast Tool

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US Patent:
20210079786, Mar 18, 2021
Filed:
Nov 2, 2018
Appl. No.:
16/494111
Inventors:
- Houston TX, US
David Orlando Torres - Bastrop TX, US
Gary Wayne Kainer - Tomball TX, US
Assignee:
Halliburton Energy Services, Inc. - Houston TX
International Classification:
E21B 47/085
G01V 1/50
Abstract:
A method for identifying a shape of a borehole may comprise disposing a downhole tool into the borehole, wherein the downhole tool comprises at least one transducer, transmitting a pressure pulse from the at least one transducer, wherein the pressure pulse is reflected as an echo, recording the echo with the at least one transducer, producing data points based at least in part on the echo, each data point including a radial distance value and an azimuthal value corresponding to the radial distance value, performing a pre-selection, fitting a geometric shape to a plurality of data points within the borehole, and sorting out at least one of the plurality of data points based at least in part on the shape. A system for identifying shape of a borehole may comprise at least one transducer and an information handling system.

A Method To Estimate Formation Resistivity

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US Patent:
20210018645, Jan 21, 2021
Filed:
Apr 10, 2019
Appl. No.:
16/615071
Inventors:
- Houston TX, US
David Ronald Beard - Houston TX, US
Gary Wayne Kainer - Tomball TX, US
Baris Guner - Houston TX, US
Assignee:
Halliburton Energy Services, Inc. - Houston TX
International Classification:
G01V 3/20
G01V 3/38
Abstract:
A method and system for estimating a resistivity of a formation. A method for estimating a resistivity of a formation may comprise disposing a downhole tool into a borehole, wherein the downhole tool comprises a pad, an injector electrode, and a return electrode, injecting a current signal into the formation from the injector electrode, measuring a voltage signal between the injector electrode and the return electrode; and determining a formation resistivity and a formation dielectric constant from at least one of the voltage signal, at least one property of the downhole tool, and at least one property of the borehole. A system for estimating a resistivity of a formation may comprise a downhole tool. The downhole tool may comprise a pad, wherein the pad comprises an injector electrode and a return electrode. The system may further comprise a conveyance for disposing the downhole tool in a borehole and an information handling system.
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Gary Wayne Kainer from Tomball, TX, age ~57 Get Report