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Foundations for offshore wind towers

Foundations for offshore wind towers. Marissa Blakley YES Prep Public Schools – East End Campus Houston, Texas Dr. Giovanna Biscontin & Dr. Charles Aubeny Department of Civil Engineering. Dr. giovanna biscontin. Associate Professor, Department of Civil Engineering

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Foundations for offshore wind towers

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  1. Foundations for offshore wind towers Marissa Blakley YES Prep Public Schools – East End Campus Houston, Texas Dr. Giovanna Biscontin & Dr. Charles Aubeny Department of Civil Engineering

  2. Dr. giovannabiscontin • Associate Professor, Department of Civil Engineering • Bachelors Degree from the University of Padova, Italy • Masters Degree from the University of California, Berkeley • PhD from the University of California, Berkeley Research Interests: Dynamic response of soils, earthquake engineering, seismic slope stability, experimental methods for characterization of soil behavior, numerical methods and modeling in geomechanics, soft soils, offshore geotechnics, and deep soil mixing. https://ceprofs.civil.tamu.edu/gbiscontin/

  3. Dr. charlesaubeny • Associate Professor, Geotechnical Engineering • Bachelors Degree from the University of Arizona • Masters Degree from the University of Colorado at Denver • PhD from the Massachusetts Institute of Technology Research Interests: Foundations and anchors for offshore structures, offshore risers and pipelines, slopes and retaining walls, dams and levees, expansive soils, and numerical methods in geotechnical engineering. https://ceprofs.civil.tamu.edu/caubeny/

  4. The research team • Madahuri Murali • Marissa Blakley • Silvia Vital • Francisco Grajales • Ryan Beemer

  5. Geotechnical engineering A branch of civil engineering concerned with the engineering behavior of earth materials that uses principles of soil and rock mechanics http://en.wikipedia.org/wiki/Geotechnical_engineering

  6. Geotechnical engineering • Investigate subsurface conditions and materials. • Determine the relevant physical, mechanical and chemical properties of these materials. • Evaluate stability of natural slopes and man-made soil deposits. • Assess risks posed by site conditions. • Design earthworks and structure foundations.

  7. Importance of Geotechnical engineering http://whatiscivilengineering.csce.ca/geotechnical.htm Railway Track Failure due to Earthquake Loading Natural Disasters such as Vaoint Dam in Italy Leaning Tower of Pisa Italy

  8. Why offshore geotechnical engineering? Population density in 2007 Esteban, 2011

  9. Why offshore geotechnical engineering? Population density in 2030 Esteban, 2011

  10. Common offshore oil-gas systems Texas A&M University, Department of Civil Engineering

  11. Why offshore wind energy? • With more and more interest in renewable energy sources, countries have begun to look offshore to fulfill energy needs. • Currently, wind energy makes up 2% of the global energy supply and is expected to grow by 160% in the next five years. • By 2050, 80% of the world’s energy supply in developing countries could come from renewable sources with wind playing a major role in electricity generation. http://www.treehugger.com/corporate-responsibility/offshore-wind-farms-to-power-15th-of-europe-by-2030.html Sun, 2012

  12. Offshore benefits

  13. Wind turbines • One 1.8 megawatt wind turbine can produce up to 4.7 million units of electricity per year. • This amount could meet the annual needs of up to 1,000 households.

  14. Construction of an offshore wind turbine

  15. The research question How does the monopile’s interaction with the soft clay at the bottom of the ocean affect the stabilization of the wind turbine?

  16. Our problem • The strong lateral forces present at sea cause wind turbines to vibrate, or rock back and forth. • These vibrations cause the soil at the bottom of the ocean to weaken, creating a vertical angle between the pile and ocean floor. • If this angle exceeds 5o, the wind turbine stops producing energy. Texas A&M University, Department of Civil Engineering

  17. The research goal Characterize the behavior of soil so that engineers can make smart, sustainable choices when constructing offshore wind farms. http://inhabitat.com/

  18. T-bar test Voltage * Calibration Factor = Force

  19. T-bar data collection

  20. Mini-shear vane test Voltage * Calibration Factor = Torque

  21. Project summary Based on the new market of offshore wind energy, we must study the interaction between the wind turbine’s monopile and the soft clays at the ocean floor. Studying these interactions will allow engineers to make cost-effective and sustainable decisions when installing wind farms in the near future.

  22. Classroom connections • Student-Constructed Wind Turbines • Soil Strength Simulation • 20-gallon aquarium filled with multi-colored sand • Vertical force applied to sand • Students able to see when soil fails • Student-Led Data Collection Using Custom-Built Pressure Gauge • PreCalculus Data and Functional Analysis

  23. acknowledgements

  24. Special thanks • Dr. Giovanna Biscontin • Dr. Charles Aubeny • Ryan Beemer • MadahuriMurali • Francisco Grajales • Silvia Vital • E3 Team

  25. Questions?

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