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Utpal Ganguly Phones & Addresses

  • 4815 Scot Ct, Sugar Land, TX 77479
  • 5015 Wood Duck Ct, Missouri City, TX 77459
  • Houston, TX
  • 7317 99Th St E, Tulsa, OK 74133
  • 7317 99Th East Ave, Tulsa, OK 74133

Work

Company: Zita technology 2019 to 2019 Position: President

Education

School / High School: Northwestern University - Kellogg School of Management 2008 to 2008 Specialities: Business Marketing

Skills

Petroleum Engineering • Business Strategy • People Management • Marketing Strategy • Upstream • Software Development • Management • Project Management • Oilfield • Petroleum • Strategy • Drilling • Oil/Gas • Oil and Gas Industry • Reservoir Engineering • Stimulation • Energy Industry • Energy • Onshore • Logging • Natural Gas • Pressure • Cement • Field Development • Subsea Engineering • Downstream Oil and Gas • Offshore Drilling • Pipelines • Completion • Reserves • Reservoir Management • Geophysics • Gas • Crm • Geology • Petroleum Economics • Offshore Operations • Engineering • Formation Evaluation • Petroleum Geology • Drilling Engineering • Wireline • Seismology • Field Operations • Lng • Completions • Petrophysics • Earth Science • Software Project Management • Oil • Leadership • Strategic Planning • Digital Transformation

Languages

Norwegian • English • Bengali • Hindi

Ranks

Certificate: Finance Foundations

Industries

Oil & Energy

Resumes

Resumes

Utpal Ganguly Photo 1

Chief Digital Officer

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Location:
5444 Westheimer Rd, Houston, TX 77006
Industry:
Oil & Energy
Work:
Zita Technology 2019 - 2019
President

Nextier Oilfield Solutions 2019 - 2019
Chief Digital Officer

Baker Hughes Jul 2017 - 2018
Executive ???????? Global Strategy and Growth Initiative, Integrated Fullstream Operations

Baker Hughes Mar 1, 2016 - Jun 2017
Vice President, E-Commerce and Alternate Business Channels

Baker Hughes Feb 2014 - Mar 2016
Vice President, Integrated Reservoir Solutions
Education:
Northwestern University - Kellogg School of Management 2008 - 2008
Kellogg School of Management Apr 2007
Northwestern University - Kellogg School of Management 2007 - 2007
University of Michigan Oct 2006
The University of Texas at Austin Feb 2002
The University of Tulsa 1995 - 1997
Master of Science, Masters, Computer Science
Norwegian Institute of Technology, Trondheim 1994
Master of Science, Masters
Norwegian University of Science and Technology (Ntnu) 1989 - 1993
Master of Science, Masters, Petroleum Engineering
Delhi University 1988
Bachelors, Bachelor of Science
Delhi University 1984 - 1987
Bachelors, Geology
Skills:
Petroleum Engineering
Business Strategy
People Management
Marketing Strategy
Upstream
Software Development
Management
Project Management
Oilfield
Petroleum
Strategy
Drilling
Oil/Gas
Oil and Gas Industry
Reservoir Engineering
Stimulation
Energy Industry
Energy
Onshore
Logging
Natural Gas
Pressure
Cement
Field Development
Subsea Engineering
Downstream Oil and Gas
Offshore Drilling
Pipelines
Completion
Reserves
Reservoir Management
Geophysics
Gas
Crm
Geology
Petroleum Economics
Offshore Operations
Engineering
Formation Evaluation
Petroleum Geology
Drilling Engineering
Wireline
Seismology
Field Operations
Lng
Completions
Petrophysics
Earth Science
Software Project Management
Oil
Leadership
Strategic Planning
Digital Transformation
Languages:
Norwegian
English
Bengali
Hindi
Certifications:
Finance Foundations
Digital Transformation
Cloud Architecture: Design Decisions
Cloud Architecture: Advanced Concepts
Implementing Your It Strategy
Iot Foundations: Fundamentals
Big Data Foundations: Techniques and Concepts
Artificial Intelligence Foundations: Thinking Machines
Machine Learning and Ai Foundations: Value Estimations
Breakthrough Intensive Leadership

Publications

Us Patents

System And Method For Performing Downhole Stimulation Operations

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US Patent:
20120185225, Jul 19, 2012
Filed:
Dec 28, 2011
Appl. No.:
13/338732
Inventors:
Hitoshi Onda - Houston TX, US
Utpal Ganguly - Sugar Land TX, US
Xiaowei Weng - Katy TX, US
International Classification:
G06G 7/48
US Classification:
703 10
Abstract:
A system and method for performing stimulation operations at a wellsite having a subterranean formation with of a reservoir therein is provided. The method involves generating a plurality of quality indicators from a plurality of logs, and combining the plurality of quality indicators to form a composite quality indicator. The composite quality indicator may be combined with a stress log to form a combined stress and composite quality indicator, the combined stress and composite quality indicator comprising a plurality of blocks with boundaries therebetween. The method may further comprise identifying classifications for the plurality of blocks; defining stages along the combined stress and composite quality indicator based on the classifications; and selectively positioning perforations in select stages based on the classifications thereon.

System And Method For Performing Optimized Downhole Stimulation Operations

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US Patent:
20130140031, Jun 6, 2013
Filed:
Jan 29, 2013
Appl. No.:
13/752505
Inventors:
Schlumberger Technology Corporation - Sugar Land TX, US
Xiaowei Weng - Katy TX, US
Carlos Abad - Richmond TX, US
Kevin W. England - Houston TX, US
Utpal Ganguly - Sugar Land TX, US
Wenyue Xu - Sugar Land TX, US
Assignee:
SCHLUMBERGER TECHNOLOGY CORPORATION - Sugar Land TX
International Classification:
E21B 43/26
US Classification:
1663081
Abstract:
A method of performing a stimulation operation for an unconventional wellsite having natural fractures and hydraulic fractures. The method involves providing at least one treatment parameter with a corresponding objective function value and performing a fracture operation based on the treatment parameter. The fracture operation involves defining a treatment schedule, conducting a hydraulic fracture operation, and estimating production. The objective function value is based on an objective function. The method also involves modifying the treatment parameter and performing the fracture operation based on the modified treatment parameter. The modified treatment parameter has a corresponding modified objective function value based on the objective function. The method continues with optimizing the treatment operation by comparing the objective function value with the modified objective function value, and repeating the modifying and optimizing for new modified treatment parameters until convergence about a desired outcome whereby an optimized parameter is defined at convergence.

System And Method For Performing Downhole Stimulation Operations

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US Patent:
20120179444, Jul 12, 2012
Filed:
Dec 28, 2011
Appl. No.:
13/338784
Inventors:
Utpal Ganguly - Sugar Land TX, US
Hitoshi Onda - Houston TX, US
Xiaowei Weng - Katy TX, US
International Classification:
G06G 7/48
US Classification:
703 10
Abstract:
A system and method for performing stimulation operations at a wellsite having a subterranean formation with of a reservoir therein is provided. The method involves performing reservoir characterization to generate a mechanical earth model based on integrated petrophysical, geomechanical and geophysical data. The method also involves generating a stimulation plan by performing well planning, a staging design, a stimulation design and a production prediction based on the mechanical earth model. The stimulation design is optimized by repeating the well planning, staging design, stimulation design, and production prediction in a feedback loop until an optimized stimulation plan is generated.

Method Of Calibrating Fracture Geometry To Microseismic Events

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US Patent:
20160108705, Apr 21, 2016
Filed:
Jul 2, 2014
Appl. No.:
14/896685
Inventors:
- Sugar Land TX, US
Xiaowei Weng - Fulshear TX, US
Olga Kresse - Richmond TX, US
Craig Cipolla - The Woodlands TX, US
Mark Mack - Houston TX, US
James T. Rutledge - Santa Fe NM, US
William Underhill - Richmond TX, US
Utpal Ganguly - Sugar Land TX, US
Assignee:
Schlumberger Technology Corporation - Sugar Land TX
International Classification:
E21B 41/00
E21B 43/267
E21B 47/00
E21B 43/26
Abstract:
A method of performing a fracture operation is provided at a wellsite. The wellsite is positioned about a subterranean formation having a wellbore therethrough and a complex fracture network therein. The complex fracture network includes natural fractures, and the wellsite stimulated by injection of an injection fluid with proppant into the complex fracture network. The method involves generating wellsite data comprising measurements of microseismic events of the subterranean formation, modeling a hydraulic fracture network and a discrete fracture network of the complex fracture network based on the wellsite data, and performing a seismic moment operation. The method involves determining an actual seismic moment density based on the wellsite data and a predicted seismic moment density based on shear and tensile components of the simulated hydraulic fracture network, and calibrating the discrete fracture network based on a comparison of the predicted moment density and the actual moment density.

Method Of Calibrating Fracture Geometry To Microseismic Events

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US Patent:
20140372089, Dec 18, 2014
Filed:
Dec 19, 2013
Appl. No.:
14/133687
Inventors:
- Sugar Land TX, US
Mark Mack - Houston TX, US
Craig Cipolla - The Woodlands TX, US
Utpal Ganguly - Sugar Land TX, US
Shawn Maxwell - Calgary, CA
Assignee:
Schlumberger Technology Corporation - Sugar Land TX
International Classification:
G01V 99/00
G06F 17/50
US Classification:
703 2
Abstract:
A method of performing a fracture operation at a wellsite about a subterranean formation having a fracture network with natural fractures is provided. The wellsite is stimulated by injection of fluid into the fracture network. The method involves generating wellsite data including natural fracture parameters and obtaining measurements of micro seismic events, modeling hydraulic fractures of the fracture network based on the wellsite data and defining a hydraulic fracture geometry of the hydraulic fractures, generating a stress field of the hydraulic fractures using a geomechanical model, determining shear failure parameters comprising a failure envelope and a stress state about the fracture network, determining a location of shear failure of the fracture network from the failure envelope and the stress state, and calibrating the hydraulic fracture geometry by comparing the modeled hydraulic fractures and the locations of shear failure against the measured microseismic events.
Utpal Kumar Ganguly from Sugar Land, TX, age ~57 Get Report