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Wave Energy Harvesting to Power Ocean Buoys

Award Information
Agency: Department of Energy
Branch: N/A
Contract: DESC0020830
Agency Tracking Number: 0000251935
Amount: $199,894.00
Phase: Phase I
Program: SBIR
Solicitation Topic Code: 13c
Solicitation Number: DEFOA0002146
Timeline
Solicitation Year: 2020
Award Year: 2020
Award Start Date (Proposal Award Date): 2020-06-29
Award End Date (Contract End Date): 2021-03-28
Small Business Information
200TurnpikeRoad, Chelmsford, MA, 01824
DUNS: 796010411
HUBZone Owned: N
Woman Owned: N
Socially and Economically Disadvantaged: N
Principal Investigator
 Tyler Robertson
 (978) 856-1900
 trobertson@tritonsystems.com
Business Contact
 Collette Jolliffe
Phone: (978) 856-4158
Email: cjolliffe@tritonsystems.com
Research Institution
N/A
Abstract
Promotion of the Blue Economy requires a deeper understanding of the oceans to enable better management of the many aspects of oceanic sustainability. Our understanding has increased dramatically over the last 20 years in response to growing concerns about Global Climate Change, sea level rise, and the dramatic declines in many fisheries, but much more data is needed to support relevant research. The low power budgets of existing ocean observing buoys limit the amount of data that can be collected and communicated. Adding a wave energy converter (WEC) to a buoy will more than double its power budget and greatly increase the amount of data available to scientists. Triton is addressing this problem by developing a point-absorber type WEC that is integrated into the hull of existing buoy designs. It uses an oscillating water column effect caused by buoy heave motion to drive an electrical generator. A specialized control algorithm will be used to maximize power output from irregular ocean wave input. In Phase I we will demonstrate the feasibility of using a wave energy converter to provide power for ocean observing and navigational buoys by: Demonstrating the power generating potential of the WEC by analysis and simulation using real sea state data as input, developing a detailed WEC design that addresses the critical mechanical, structural and electrical challenges present in ocean systems, specifying a control methodology to maximize power output of the WEC. This will enable us to build and test a full scale WEC in Phase II. In addition to enabling larger power budgets for ocean observing buoys, the proposed WEC can be used to provide power for navigational buoys, create UAV recharging nodes, provide power for off-shore aquaculture, and provide long endurance surveillance nodes for the Navy with minimal surface presence.

* Information listed above is at the time of submission. *

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