Search

Dileep Sathyanarayana

from Katy, TX
Age ~48
Get Report
Also known as:
Dilee Sathyanarayana, Deleep Sathyanarayana, Dileep Sathanarayana
Phone and address:
9423 Amethyst Arbor Ln, Katy, TX 77494
Connected to:
Babitha A Sathyanarayana, 54Bhara B Sathyanarayana, 42Lalitha Sathyamurthy, 93Narayan Sathyamurthy, 42Naveen Sathyanaraya, 52Sajan Sathyan, 53Venkataram Sathyamoorthy, 71Sellavelu Sathyapriya, 46Christie I Satia, 29Mohammed N Satia, 63

Dileep Sathyanarayana Phones & Addresses

  • 9423 Amethyst Arbor Ln, Katy, TX 77494
  • Houston, TX
  • 8 Belvedere Pl, Clifton Park, NY 12065
  • Marietta, GA
  • Greenville, SC
  • Schenectady, NY
  • Sunderland, MA

Work

Company: Ge Nov 2013 to Jun 2016 Position: Director of technology, oil and gas

Education

Degree: Masters School / High School: University of Massachusetts Amherst Specialities: Mechanical Engineering

Skills

Engineering • Energy • Six Sigma • Leadership • Business Strategy • Product Management • Innovation • Corporate Strategy • Business Transformation • Management Consulting • Acquisition Integration • Digital Strategy • Organizational Leadership • Business Operations • Strategic Planning • Power Generation • Turbines • Gas Turbines • Product Development • Project Management • Engineering Management • Mechanical Engineering • Thermodynamics • Root Cause Analysis • Operational Excellence

Languages

English • Kannada

Ranks

Certificate: Six Sigma Black Belt

Interests

Children • Economic Empowerment • Environment • Science and Technology • Arts and Culture • Health

Industries

Management Consulting

Resumes

Resumes

Dileep Sathyanarayana Photo 1

Solution Leader

View page
Location:
Houston, TX
Industry:
Management Consulting
Work:
Ge Nov 2013 - Jun 2016
Director of Technology, Oil and Gas
Ge Oct 2009 - Nov 2013
Business Strategy and Operations Leader, Energy
Ge Aug 2001 - Oct 2009
Systems Integration Leader
Mckinsey & Company Aug 2001 - Oct 2009
Solution Leader
Education:
University of Massachusetts Amherst
Masters, Mechanical Engineering Pg Center, Kolar
Bachelors, Mechanical Engineering
Skills:
Engineering
Energy
Six Sigma
Leadership
Business Strategy
Product Management
Innovation
Corporate Strategy
Business Transformation
Management Consulting
Acquisition Integration
Digital Strategy
Organizational Leadership
Business Operations
Strategic Planning
Power Generation
Turbines
Gas Turbines
Product Development
Project Management
Engineering Management
Mechanical Engineering
Thermodynamics
Root Cause Analysis
Operational Excellence
Interests:
Children
Economic Empowerment
Environment
Science and Technology
Arts and Culture
Health
Languages:
English
Kannada
Certifications:
Six Sigma Black Belt
Ge
Ge Advanced Courses In Engineering
Ge Edison Engineer
Advanced Value Specialist

Publications

Us Patents

Apparatus For Starting A Steam Turbine Against Rated Pressure

View page
US Patent:
8176723, May 15, 2012
Filed:
Dec 31, 2008
Appl. No.:
12/347353
Inventors:
David E. Welch - Amsterdam NY, US
Dileep Sathyanarayana - Clifton Park NY, US
James C. Mondello - Rochester NY, US
Edward L. Kudlacik - Glenville NY, US
Assignee:
General Electric Company - Schenectady NY
International Classification:
F02C 6/00
US Classification:
60 39182
Abstract:
An external steam turbine main steam startup control valve bypass loop is provided to facilitate a full pressure combined cycle rapid response/fast start powerplant. The main steam startup bypass control loop particularly includes a main steam startup bypass control valve, which allows for the implementation of high efficiency, low pressure drop main steam control valve that otherwise would not be able to handle the severe throttling duty during a full pressure steam turbine startup and enhances the controllability of the steam turbine allowing for the high fidelity controls necessary to minimize steam turbine rotor stresses.

Methods And Systems To Develop An Experience-Based Probabilistic Lifing Process

View page
US Patent:
20090048787, Feb 19, 2009
Filed:
Aug 15, 2007
Appl. No.:
11/839333
Inventors:
Dileep Sathyanarayana - Schenectady NY, US
Peter J. Eisenzopf - Altamont NY, US
International Classification:
G06F 19/00
G06F 17/18
US Classification:
702 34, 702181
Abstract:
A method of facilitating a probabilistic lifting process is provided. The method includes obtaining operational data for at least one turbine engine, defining a plurality of cool-down curves for the at least one turbine engine, identifying a plurality of different start types of the at least one turbine engine, and developing a formula for the at least one turbine engine. The method also includes determining an operating strategy and establishing a design useful life for the at least one turbine engine, developing at least one histogram and a probabilistic model using the operational data, and determining a mission mix for the operating strategy by performing a simulation of the probabilistic model combined with cyclic life expenditure data of the at least one turbine engine.

Control For Improved Thermal Performance Of A Steam Turbine At Partial Load

View page
US Patent:
20100305768, Dec 2, 2010
Filed:
Jun 1, 2009
Appl. No.:
12/475917
Inventors:
Joel Donnell Holt - Scotia NY, US
Steven Di Palma - Sterling MA, US
Dileep Sathyanarayana - Clifton Park NY, US
Assignee:
GENERAL ELECTRIC COMPANY - Schenectady NY
International Classification:
F01K 23/10
F01K 13/02
G06F 1/26
US Classification:
700288, 60772, 60 39182
Abstract:
A method controls at least a portion of a combined cycle power plant having at least one gas turbine, at least one heat recovery steam generator, and at least one steam turbine. The method includes developing an actual operating curve of a steam characteristic of the at least one heat recovery steam generator versus an amount of steam provided to the at least one steam turbine from the at least one heat recovery steam generator. The method also includes determining the steam characteristic of the at least one heat recovery steam generator at a point in time during operation of the combined cycle power plant. The method further includes providing an amount of the steam from the at least one heat recovery steam generator to the at least one steam turbine depending upon the determined steam characteristic of the at least one heat recovery steam generator at the point in time.

Method Of Starting A Steam Turbine

View page
US Patent:
20110146276, Jun 23, 2011
Filed:
Dec 23, 2009
Appl. No.:
12/646201
Inventors:
Dileep Sathyanarayana - Clifton Park NY, US
Steven Dipalma - Sterling MA, US
International Classification:
F01K 13/02
US Classification:
60646, 60660
Abstract:
The present invention has the technical effect of reducing the start-up time associated with starting a steam turbine. Embodiments of the present invention provide a new methodology for reducing the steam-to-metal temperature mismatch present during the start-up of a steam turbine. Essentially, embodiments of the invention may raise the pressure of the steam upstream of an admission valve associated with a High Pressure (HP) section of a steam turbine. The initial high pressure of the steam may reduce the enthalpy of steam, reducing temperature of the steam admitted to the HP section.

Methods And Systems For Loading A Steam Turbine

View page
US Patent:
20120131917, May 31, 2012
Filed:
Nov 30, 2010
Appl. No.:
12/956810
Inventors:
John Piccirillo - Schenectady NY, US
Steven Di Palma - Schenectady NY, US
Dileep Sathyanarayana - Schenectady NY, US
Assignee:
GENERAL ELECTRIC COMPANY - Schenectady NY
International Classification:
F01K 13/02
F01K 23/06
US Classification:
60645, 60670
Abstract:
Systems and methods for loading a steam turbine are provided. A method may include: receiving a turbine loading factor; receiving a current steam turbine exhaust temperature; determining a steam flow ramping rate parameter and a steam temperature ramping rate parameter based at least in part on the turbine loading factor and the current steam turbine exhaust temperature, wherein the steam flow ramping rate parameter and the steam temperature ramping rate parameter are determined based at least in part on an inverse relationship between the steam flow ramping rate parameter and the steam temperature ramping rate parameter. The method may further include controlling at least one of: (a) steam flow to the steam turbine based at least in part on the steam flow ramping rate parameter; or (b) steam temperature to the steam turbine based at least in part on the steam temperature ramping rate parameter.

Method For Operating A Turbomachine During A Loading Process

View page
US Patent:
20120151918, Jun 21, 2012
Filed:
Dec 16, 2010
Appl. No.:
12/969876
Inventors:
Dileep Sathyanarayana - Clifton Park NY, US
Steven Craig Kluge - Burnt Hills NY, US
Dean Alexander Baker - Clifton Park NY, US
Steven Di Palma - Sterling MA, US
International Classification:
F01K 13/02
US Classification:
60645
Abstract:
A method for increasing the operational flexibility of a turbomachine is provided. The turbomachine may include a first section, a second section, and a rotor disposed within the first section and the second section. The method may determine an allowable range of a physical parameter associated with the first section and/or the second section. The method may modulate a first valve and/or a second valve to allow steam flow into the first section and the second section respectively, wherein the modulation is based on the allowable range of the physical parameter. In addition, the physical parameter allows the method to independently apportion steam flow between the first section and the second section of the turbomachine, during the loading process.

Method For Starting A Turbomachine

View page
US Patent:
20120151921, Jun 21, 2012
Filed:
Dec 16, 2010
Appl. No.:
12/969906
Inventors:
Dileep Sathyanarayana - Clifton Park NY, US
Steven Craig Kluge - Burnt Hills NY, US
Dean Alexander Baker - Clifton Park NY, US
Steven Di Palma - Sterling MA, US
International Classification:
F01K 13/02
US Classification:
60646
Abstract:
A method for increasing the operational flexibility of a turbomachine during a startup phase is provided. The turbomachine may include a first section, a second section, and a rotor disposed within the first section and the second section. The method may determine an allowable range of a physical parameter associated with the first section and/or the second section. The method may modulate a first valve and/or a second valve to allow steam flow into the first section and the second section respectively, wherein the modulation is based on the allowable range of the physical parameter. In addition, the physical parameter allows the method to independently apportion steam flow between the first section and the second section of the turbomachine, during the startup phase.

Method And System For Controlling A Valve Of A Turbomachine

View page
US Patent:
20120151925, Jun 21, 2012
Filed:
Dec 16, 2010
Appl. No.:
12/969861
Inventors:
Steven Craig Kluge - Burnt Hills NY, US
Dean Alexander Baker - Clifton Park NY, US
Dileep Sathyanarayana - Clifton Park NY, US
Steven DI Palma - Sterling MA, US
International Classification:
F01K 13/02
US Classification:
60660
Abstract:
A method and a system for limiting steam flow entering a steam turbine are provided. The method and system may intentionally unbalance the steam flow apportioned between sections of the steam turbine. The steam turbine comprises at least: a first section, a second section, and a rotor disposed within each section. The method may receive a speed/load command, or the like, which provides reference strokes for a first valve, associated with the first section; and a second valve, associated with the second section. The method may also determine an operational parameter that may limit the reference strokes relative to the speed/load command. The operational parameter may determine the allowable steam flow for each section of steam turbine, independent of the speed/load command.
Control profile
Dileep Sathyanarayana from Katy, TX, age ~48 Get Report