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AIKIDO : Advanced Inertial and Kinetic energy recovery through Intelligent (co)-Design Optimization.

Otherlab
Program: 
ARPA-E Award: 
$2,862,554
Location: 
San Francisco, CA
Project Term: 
04/06/2020 to 04/05/2022
Project Status: 
ACTIVE
Technical Categories: 
Critical Need: 
Floating offshore wind turbines (FOWTs) are currently designed to be large and heavy to replicate more familiar onshore wind turbine dynamics, maintain stability, and survive storms. However, this approach fundamentally limits how inexpensive FOWTs can ever become. Radically new designs that do not require a massive floating platform--applying the control co-design (CCD) approach of substituting mass by control systems--are needed. CCD methodologies integrate all relevant engineering disciplines at the start of the design process, with feedback control and dynamic interaction principles as the primary drivers of the design. To design innovative, economically competitive FOWTs, researchers must overcome several significant technical barriers: insufficient current knowledge of how FOWT subsystem dynamics interact; insufficient computer tools for dynamic simulation; and a dearth of experimental data. ATLANTIS will address these technical barriers while exploring radically new FOWT design concepts that minimize mass and maximize productive rotor area to provide economical offshore wind power.
Project Innovation + Advantages: 
Traditional wind turbines have grown larger to reach the higher wind speeds found at greater heights and enable the blades to intercept a larger area of wind. The stiffness required to hold up the blades and nacelle has caused turbines to become extremely heavy and consequently expensive. Applying novel CCD paradigms, Otherlab will develop a new architecture for wind systems based on compliant materials, energy-generating structural surfaces, and advanced control systems that overcome the need for stiff, expensive materials by actively controlling how the system interacts with the environment.
Potential Impact: 
ATLANTIS projects will aim to develop new and potentially disruptive innovations in FOWT technology to enable a greater market share of offshore wind energy, ultimately strengthening and diversifying the array of domestic energy sources available to Americans.
Security: 
Diverse, domestic energy resources can boost grid resiliency and reduce infrastructure vulnerabilities.
Environment: 
Increased availability of affordable, reliable wind energy could lessen reliance on fossil fuels, reducing power sector emissions.
Economy: 
Program developments in FOWTs could reduce the cost of wind energy production and provide an entirely new option for the offshore wind industry, as well as access to significant wind resources near major population centers on U.S. coastlines.
Contacts
ARPA-E Program Director: 
Dr. Mario Garcia-Sanz
Project Contact: 
Dr. Saul Griffith
Release Date: 
8/8/2019