Tel: 401-943-1164 / US & Canada Toll Free: 877-943-1164  |  36 Western Industrial Drive, Cranston, Rhode Island
Login:
  
Not registered? Register
Research & Development
 
R and D
Servo Motor Applications
Linear Motor Applications
SRM Motor Drives
Power Electronics
Robotic Applications
Structural Control
Automotive Applications
Starter/Generator
Active Suspension
HEV Traction Drive
SRM Power Steering
Battery Charger
Fault Resilient Control
Distributed Control
Smart Sensors
Wireless Web-Based
Monitoring and Control
Web-Enabled Systems
Sensorless Control of Linear Motors
Ocean Energy Extraction

Ocean Wave Energy Harvesting
White Papers
Press Release
Direct-Drive Wave Energy Conversion Devices
  R & D Engineering Services Press Releases
   
 

STAC Awards $200K to Electro Standards in Collaboration with URI for Development of Direct-Drive Wave Energy Conversion Devices
   
     

 

 
 

Electro Standards Laboratories (ESL), in collaboration with the University of Rhode Island (URI), Department of Ocean Engineering, under the Center of Excellence in Undersea Technology, has been awarded a $200K Rhode Island Collaborative Research Grant from the Rhode Island Science and Technology Council (STAC) to further the development of renewable energy direct-drive wave energy conversion devices to power autonomous coastal buoys.  
 

The work continues the development of commercial devices that can power such systems by converting mechanical wave energy to electrical energy using electrical generators housed in spar-based buoys. The project will focus on developing a renewable energy source for a free floating buoy that can be used to power coastal surveillance systems, emergency beacons, or other devices that can be connected to the buoy structure.  This will be accomplished by integrating electrical generators with a customized spar buoy design and with the design of a novel generator control and energy storage system. This design approach promises to have few moving parts, be functional in a wide range of ocean sea state conditions, and be inexpensive to manufacture.  The performance of the system will be validated by numerical simulations and tests in URI’s wave tank. Based on these tests, a prototype system will be designed and undergo extensive field testing in Narragansett Bay
  The technology is directly usable for emergency beacons for all commercial and recreational watercraft, and for offshore rig-monitoring buoys in the oil industry.  Longer term development would target scaling up the technology to provide an inexhaustible source of renewable electrical energy for powering larger systems. 

 

Scientists at Electro Standards Laboratories in Cranston, Rhode Island and in the Ocean Engineering Department at the University of Rhode Island in Kingston, Rhode Island have combined expertise in marine hydrodynamics, electrical generators, advanced controls and dynamics. ESL and URI have worked collaboratively to improve the design and performance of wave energy harvesting devices, including a successful Phase I SBIR project that showed the feasibility of using the technology to power specific types of Navy sensing and communications buoys. For more details review  a report entitled Ocean Wave Energy Harvesting Buoy for Sensors by Steven P. Bastien and Raymond B. Sepe, Jr. of Electro Standards Laboratories and Annette R. Grilli, Stephan T. Grilli and Malcolm L. Spaulding of the University of Rhode Island.

 

Electro Standards Laboratories offers turnkey engineering services. Call 401-943-1164 to begin the process.
   Ocean Wave Energy Harvesting
   
  Research and Development
Designed and Developed by Brave River Solutions
Home  |  About  |  Press  |  Sales  |  Products  |  Services  |  R & D  |  R&D Users  |  Downloads  |  Catalog  |  Jobs  |  Contact
Processed page in 0.015625 seconds
Copyright©2012 Electro Standards Laboratories