1 / 21

SEMINAR ON Floating Windmills

SEMINAR ON Floating Windmills. By- Sunny Dubey B.E. (8 th sem) USN:1DS05ME090 Dayananda sagar college of engineering B.E.(mechanical). Floating Windmills. Alternative Emergency. Energy is a major factor in today’s society

barbaralarson
Télécharger la présentation

SEMINAR ON Floating Windmills

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. SEMINAR ONFloating Windmills By- Sunny Dubey B.E. (8th sem) USN:1DS05ME090 Dayananda sagar college of engineering B.E.(mechanical)

  2. Floating Windmills

  3. Alternative Emergency • Energy is a major factor in today’s society • Alternative fuel and alternative energy resources are in great demand • Most everyone in the world is looking for more energy-efficient ways to live • Hybrid vehicles and other fuel-efficient technology is arising around the world • The world has to change, this emergency that we are experiencing today should have been taken care of long before now. • Now we have no choice but to develop new technology in very little time

  4. Background Information • Developed by Hydro, a Norwegian offshore producer of oil and gas and the third largest aluminum supplier in the world. • Hydro is a fortune 500 country that was founded in 1905, with 33,000 employees in 40 countries • Hydro has researched this plan for more many years, and the results look promising.

  5. Introduction to Floating Windmills • An alternative energy resource that doesn’t require use of fossil fuel • Size and structure: • Windmills will reach 80 meters above the surface • Rotors on the windmill will have a diameter of 90 meters • Windmills secured by cables that are connected to ocean’s floor

  6. Goals and Objectives • To have large-scale offshore wind parks with up to 200 turbines capable of producing up to 4 terawatt hours per year and delivering renewable electricity to both offshore and onshore activities • To take advantage of wind resources where it blows the most – at sea. • Help energy poor areas where there is little land space but great offshore wind conditions (United States) • This kind of electricity will be enough to serve some 200,000 average households.

  7. Current Windmills • Offshore wind turbines are not new • They typically stand on towers that are driven deep into the ocean floor • This can only take place if the water is less than 50 feet • This means that the turbine is visible from land • These new turbines will take advantage of stronger winds and will not be visible from land • This can happen because of the flotation device and the anchor system

  8. Facts • These new floating windmills are possibly one of the best alternative energy sources available. • Also, these new floating windmills cost one-third of what the current offshore windmill costs. • The windmills could be moved to different locations if the need arises. • The electricity will be brought to land by large electrical cables. • The energy could also be brought to offshore oil producers to power their needs

  9. Spar and TLP SML Simulation Models

  10. 1 Barrel of Oil ~ 130 kg ~ 1.5 MWh of Energy (~ 12 kWh / kg) 1 MW of Rated Wind Turbine Power @ 40% Capacity Factor ~ 9.6 MWh / Day ~ 6.4 Barrels of Oil / Day Conversion Efficiency of Oil & Gas Engines / Turbines, Wind Turbines ~ 40-50% 1 GW Wind Farm (30 year life) ~ 70 M Barrel Oil Field ~ 6,400 Barrels / Day Breakeven Cost of Wind Turbines $3M / Rated MW = $3 B / Rated GW Equivalent Cost per Barrel of Oil ~ $43 / Barrel Investment Risk in Oil & Gas: Exploration Costs & Volatility of Oil & Gas Prices Investment Risk in Wind: Volatility of Wind Speed & Electricity Prices Floating Wind Farms vs. Oil & Gas Reservoirs

  11. Wind a Rapidly Growing, Free, Inexhaustible, Environmentally Friendly, Utility Scale and Cost Effective Energy Source Vast Offshore Wind Resources with Higher and Steadier Wind Speeds in Deeper Waters Over 75% of Worldwide Power Demand From Coastal Areas Wind Power Output Increases with Cube of Wind Speed Lower Offshore Wind Turbulence – Longer Farm Life ~ 25-30 Years Connection to Electric Grid by Sub Sea AC or HVDC Cables Experience of Oil Industry Essential for the Development of Safe and Cost Effective Spar and TLP Wind Turbine Floaters Advantages:

  12. Floating Wind Turbine Attributes • Water Depths of 30 – 1000 m • 5-MW Wind turbine: 1 GW Floating Wind Farm (200 Units) • Flexible Installation process: • Full Assembly at a Coastal Facility • Ballasted TLP or Spar Buoy • Tow Stable Floating Wind Turbine at Offshore Wind Farm Site • Tow In of Floating Wind Turbine for Major Maintenance • Gravity Anchors for TLP Tethers • Conventional or Synthetic Catenaries for Spar Buoy • Attractive Economic and Financial Attributes

  13. Summary • Optimized Spar Buoy and TLP Wind Turbine Floaters • Low Responses – Use of Onshore Wind Turbines • Hybrid Offshore Wind & Wave Farms • Optimal Control to Enhance Wind and Wave Power Output • Design of Offshore Electric Grids • Attractive Economic Attributes • Project Finance for Utility Scale Offshore Wind & Wave Farms

  14. Costs • Hydro has invested some NOK 20 million (over 305,000 in US dollars) into the Hywind concept over the past three years. • Further research and demonstration of the project will require more than another NOK 150 million (about 23 million US dollars)

  15. BIBLIOGRAPHY Musial, W.; S. Butterfield, A. Boone (2003-11). "Feasibility of Floating Platform Systems for Wind Turbines". NREL preprint (NREL) (NREL/CP-500-34874): 14. Retrieved 2009-09-10. (WMV) sway_movie. SWAY. Event occurs at 1m30s. Retrieved 2009-10-20. "Due to its simple construction, the capital expenditure of the floating Sway system is competitive to bottom mounted, near-shore wind towers; however, the average wind speeds far off-shore are typically higher so more energy can be produced and the cost of energy is actually reduced when compared with near-shore wind parks.“ Mark Svenvold (2009-09-09). "The world's first floating wind turbine goes on line in Norway". DailyFinance.com. Retrieved 2009-10-20. Union of Concerned Scientists (2003-07-15). "Farming the Wind: Wind Power and Agriculture". Retrieved 2009-10-20. abcd"Floating Wind Turbines, Deep Water Installation". Offshore Industry2 (4): 48-51. 2009. Retrieved 2009-10-20. "In December 2007, Blue H launched the world's first floating wind turbine 21.3 km off the southern Italian coast at a depth of 113 m. The concession ran out at the end of 2008 and Blue H decommissioned the unit successfully.".  Madslien, Jorn (2009-09-08), Floating challenge for offshore wind turbine, BBC News, retrieved 2009-09-14 d Patel, Prachi (2009-06-22). "Floating Wind Turbines to Be Tested". IEEE Spectrum. Retrieved 2009-06-25.

  16. THANK YOU

More Related