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Srinivas K Guntur

from Kansas City, KS
Age ~39
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Also known as:
Srinivas K Gunter, Srinivas Gutur, Guntur Srinivas
Connected to:
Vishal V Guntur, 39Nivedita Gunturi, 40Sivarama Gunturi, 52Sudha K Gunturu, 40Vamshee K Gunturu, 47Jeff A Gunty, 65Kurt Gunty, 59Robert N Gunty, 44Austin W Guntz, 34Christopher A Guntz, 35

Srinivas Guntur Phones & Addresses

  • Kansas City, KS
  • Boulder, CO
  • Falls Church, VA
  • Somersworth, NH
  • Fairfax, VA

Work

Company: Siemens gamesa Oct 2016 Position: R and d engineer - wind turbine loads

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Technical University of Denmark 2010 to 2013 Specialities: Energy, Philosophy

Skills

Matlab • Modeling • Wind Turbines • Simulations • Fluid Dynamics • Aerodynamics • Cfd • Data Analysis • Mechanical Engineering • Cad • Solidworks • Fieldview

Industries

Research

Resumes

Resumes

Srinivas Guntur Photo 1

R And D Engineer - Wind Turbine Loads

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Location:
301 Tri City Rd, Somersworth, NH 03878
Industry:
Research
Work:
Siemens Gamesa
R and D Engineer - Wind Turbine Loads
National Renewable Energy Laboratory Apr 2014 - Oct 2016
Post-Doc
Risø National Laboratory For Sustainable Energy Sep 2010 - Mar 2014
Phd Student
University of New Hampshire Sep 2007 - May 2010
Research Assistant
Windstream Technologies Feb 2009 - Dec 2009
Engineer
Education:
Technical University of Denmark 2010 - 2013
Doctorates, Doctor of Philosophy, Energy, Philosophy University of New Hampshire 2007 - 2009
Master of Science, Masters, Mechanical Engineering Vellore Institute of Technology 2003 - 2007
Bachelors, Bachelor of Technology, Mechanical Engineering Bharatiya Vidya Bhavans Public School
Skills:
Matlab
Modeling
Wind Turbines
Simulations
Fluid Dynamics
Aerodynamics
Cfd
Data Analysis
Mechanical Engineering
Cad
Solidworks
Fieldview

Publications

Us Patents

Modular Alternative Energy Unit

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US Patent:
20100270808, Oct 28, 2010
Filed:
Jan 29, 2010
Appl. No.:
12/657914
Inventors:
Daniel L. Bates - Manhattan Beach CA, US
Bob G. Schlicher - Knoxville TN, US
John R. Owen - Calabasas CA, US
Ravi K. Tangirala - Somersworth NH, US
Srinivas K. Guntur - Somersworth NH, US
Gary E. Johnson - Austin TX, US
International Classification:
F03D 9/00
US Classification:
290 55
Abstract:
A wind energy apparatus is made up of a plurality of modular wind energy devices or units. Each unit has a housing and at least two turbines mounted on the housing. Each of the turbines has a blade set extending upward from the housing. Each blade set has a vertical axis extending upward in relation to the housing. Each of the turbines has a generator connected thereto, each generator being disposed in the housing, and having a rotor and a stator. Each turbine is rotatably mounted with respect to the housing, and mounted to the rotor so that they rotate together. Each housing has a positive connector and negative connector on each side of the respective unit. The units, when placed together, connect their respective poles, positive and negative, together completing a circuit. Therefore, one may connect multiple units together.

Floating Wind Turbine Blade Pitch Adjustment For Wave Activity

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US Patent:
20220412309, Dec 29, 2022
Filed:
Oct 22, 2020
Appl. No.:
17/770768
Inventors:
- Brand, DK
Srinivas Guntur - Boulder CO, US
Marco Masciola - Louisville CO, US
International Classification:
F03D 7/02
F03D 9/30
Abstract:
Provided is a method, computing system, and computer program product for reducing floating wind turbine loads induced by ocean waves by adjusting a blade pitch angle of at least one rotor blade of a floating wind turbine to minimize a moment imbalance at a platform top of the floating wind turbine caused by ocean wave activity.

Floating Wind Turbine Blade Pitch Adjustment For Wave Activity

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US Patent:
20210123414, Apr 29, 2021
Filed:
Oct 25, 2019
Appl. No.:
16/664567
Inventors:
- Brande, DK
Srinivas Guntur - Boulder CO, US
Marco Masciola - Louisville CO, US
International Classification:
F03D 7/02
F03D 9/30
Abstract:
Provided is a method, computing system, and computer program product for reducing floating wind turbine loads induced by ocean waves by adjusting a blade pitch angle of at least one rotor blade of a floating wind turbine to minimize a moment imbalance at a platform top of the floating wind turbine caused by ocean wave activity.

Modular Alternative Energy Unit

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US Patent:
20150021922, Jan 22, 2015
Filed:
Aug 29, 2014
Appl. No.:
14/473790
Inventors:
- North Vernon IN, US
Bob G. Schlicher - Knoxville TN, US
John R. Owen - Calabasas CA, US
Ravi K. Tangirala - Somersworth NH, US
Srinivas K. Guntur - Somersworth NH, US
Gary E. Johnson - Austin TX, US
International Classification:
F03D 3/02
F03D 9/00
F03D 3/00
US Classification:
290 55
Abstract:
A wind energy apparatus is made up of a plurality of modular wind energy devices or units. Each unit has a housing and at least two turbines mounted on the housing. Each of the turbines has a blade set extending upward from the housing. Each blade set has a vertical axis extending upward in relation to the housing. Each of the turbines has a generator connected thereto, each generator being disposed in the housing, and having a rotor and a stator. Each turbine is rotatably mounted with respect to the housing, and mounted to the rotor so that they rotate together. Each housing has a positive connector and negative connector on each side of the respective unit. The units, when placed together, connect their respective poles, positive and negative, together completing a circuit. Therefore, one may connect multiple units together.

Modular Alternative Energy Unit

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US Patent:
20140097622, Apr 10, 2014
Filed:
Sep 13, 2013
Appl. No.:
14/026161
Inventors:
- Manhattan Beach CA, US
Robert G. Schlicher - Knoxville TN, US
John R. Owen - Calabasas CA, US
Ravi K. Tangirala - Somersworth NH, US
Srinivas K. Guntur - Somersworth NH, US
Gary E. Johnson - Austin TX, US
Assignee:
Windstream Technologies, Inc. - Manhattan Beach CA
International Classification:
F03D 3/00
US Classification:
290 55
Abstract:
A wind energy apparatus is made up of a plurality of modular wind energy devices or units. Each unit has a housing and at least two turbines mounted on the housing. Each of the turbines has a blade set extending upward from the housing. Each blade set has a vertical axis extending upward in relation to the housing. Each of the turbines has a generator connected thereto, each generator being disposed in the housing, and having a rotor and a stator. Each turbine is rotatably mounted with respect to the housing, and mounted to the rotor so that they rotate together. Each housing has a positive connector and negative connector on each side of the respective unit. The units, when placed together, connect their respective poles, positive and negative, together completing a circuit. Therefore, one may connect multiple units together.
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Srinivas K Guntur from Kansas City, KS, age ~39 Get Report