Optimal Floating Vertical-Axis Wind Turbine Platform Identification Design and Cost Estimation | Zendy

Chad Searcy | Zendy; Steve Perryman | Zendy; Dilip Maniar | Zendy; D. Todd Griffith | Zendy; Brandon Ennis | Zendy

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Optimal Floating Vertical-Axis Wind Turbine Platform Identification Design and Cost Estimation

Author(s) -

Chad Searcy,

Steve Perryman,

Dilip Maniar,

D. Todd Griffith,

Brandon Ennis

Publication year - 2018

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/1466529

Subject(s) - deliverable , turbine , vertical axis wind turbine , identification (biology) , marine engineering , optimal design , computer science , engineering , structural engineering , mechanical engineering , systems engineering , botany , machine learning , biology

This report houses the deliverables provided by Stress Engineering Services on the floating platform design identification studies and the detailed final design iterations. The results were obtained under contract to and in partnership with Sandia to iterate between the platform design and the aero-hydro-elastic load simulations of the coupled vertical-axis wind turbine system. Through the analysis summarized in this report, a tension-leg platform with multiple columns was identified as the optimal platform when considering cost and performance. The detailed design and cost estimate of this platform architecture was produced in the final phase of study which is also described within this report.

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