The Northern Lights project will disclose datasets from the confirmation well 31/5-7 Eos drilled in the North Sea and completed earlier this year. Extensive amounts of data have been acquired through coring, logging, sampling and a production test.
Energy
All Stories
The U.S. Department of Energy’s (DOE's) National Renewable Energy Laboratory (NREL) announces the 17 teams chosen to participate in the DOE 2021 Marine Energy Collegiate Competition: Powering the Blue Economy™.
Administered by the NREL on behalf of DOE’s Water Power Technologies Office, the competition enables multidisciplinary teams of undergraduate and graduate students to obtain real-world experience in exploring innovative marine energy solutions to address power needs across the blue economy.
As part of the challenge, competitors will develop, design, and test their submissions for next-generation marine energy technologies. With cutting-edge concepts to support resilient coastal communities or provide power at sea, these innovators are poised to make a splash.
In its second year, the competition appears stiff. Let’s learn a bit more about the teams as they take their place at the starting line.
Top-Notch Teams
Would-be competitors submitted their applications through September. NREL chose the following teams to participate in the competition in spring 2021:
- Boise State University
- Institute of Engineering, National Autonomous University of Mexico, partnering with Thayer School of Engineering at Dartmouth, Dartmouth College, Autonomous University of Baja California, University of Caribe, National Polytechnic Institute, Autonomous University of Mexico State and Faculty of Accounting and Administration
- Manhattan College
- New Mexico State University
- North Carolina Agricultural and Technical University, partnering with University of North Carolina Wilmington – Center for Innovation and Entrepreneurship
- Oregon State University
- Purdue University
- University of California, Berkeley
- University of California, Riverside
- University of California, Santa Barbara
- University of Massachusetts Dartmouth
- University of Massachusetts Dartmouth, partnering with St. Bonaventure University
- University of North Florida
- University of Plymouth
- University of Washington
- Virginia Polytechnic Institute and State University
- Virginia Tech Center for Energy Harvesting Materials and Systems, partnering with University of California, Los Angeles
Through this competition, team members will achieve invaluable real-world experience, along with the industry connections to help them pursue future careers in the marine energy sector and the blue economy. From researchers and engineers to educators and project managers, the blue economy career opportunities are as vast as the ocean itself.
Encouraging Creativity to Set Sail
Recognizing the innumerable benefits that can come from convening a divergent group of thinkers and mavericks, the Marine Energy Collegiate Competition encourages applications across a variety of technical and scientific expertise. This heterogeneous group of challengers will put their diversity of experience, education, and perspectives to work in designing the marine energy devices capable of addressing a host of blue economy challenges.
Submissions can run the gamut from concepts that aid in ocean observation and underwater vehicle charging to desalination and more, including—but not limited to—the markets identified in DOE’s Powering the Blue Economy™ report PDF.
The 2021 Marine Energy Collegiate Competition teams will be asked to:
- Develop a market-research-supported business plan and conceptual-level technical design of a system that could be commercialized to address power needs for a chosen sector of the blue economy
- Pitch their plan to a panel of judges and hypothetical investors
- Design, build, and test a device to achieve energy production
- Engage with their community through outreach and educational activities.
As part of the competition, teams will deliver written submissions, market assessment and business pitches, and detailed technology designs for their chosen markets. New to the 2021 competition is the optional build-and-test segment, which will allow interested teams to test their devices in a tank in the spring of 2021.
Dominion Energy announces that the two turbine, 12-megawatt Coastal Virginia Offshore Wind (CVOW) pilot project, located 27 miles off the coast of Virginia Beach, successfully completed reliability testing and is ready to enter commercial service to deliver clean, renewable energy to Virginia customers.
In three weeks the 14th edition of Offshore Energy Exhibition & Conference opens its virtual doors!
A recent study completed by Apollo has reinforced Bombora’s research that mWave™ technology, when applied to a floating platform, can deliver utility scale energy solutions resulting in significant operational, economic and environmental benefits.
Two offshore wind research buoys managed by the U.S. Department of Energy’s (DOE’s) Pacific Northwest National Laboratory (PNNL) were deployed recently off the coast of California. This marks the first time the buoys have been launched to gather meteorological and oceanographic measurements off the West Coast.
3 GW of ocean energy could be deployed worldwide, with costs falling to around €90/MWh for tidal stream and €110/MWh for wave energy, according to a new publication by industry body Ocean Energy Europe. The 2030 Ocean Energy Vision, launched on Tuesday, October 13, 2020, charts an exciting path for ocean energy’s roll-out over the coming decade.
ABPmer recently supported a study by Offshore Wind Innovation Hub (OWIH) into potential operation and maintenance (O&M) costs for floating offshore wind. As part of their Industry Insight Series, the Hub’s new report ‘Floating wind: Cost modelling of major repair strategies’, looks at options for these repairs, estimated at 23% of annual O&M costs.
Ørsted, the world's leading offshore wind developer, and Yara, the world's leading fertilizer company, have joined forces in developing a pioneering project aiming at replacing fossil hydrogen with renewable hydrogen in the production of ammonia with the potential to abate more than 100,000 tonnes of CO2 per year, equivalent to taking 50,000 conventional cars off the road.
Sea energy is the greatest renewable energy source in the world: the estimated global wave power generation along terrestrial coastlines is 2 TeraWatt, around 18 thousand billion kilowatt hours per year - that is almost the annual power requirement of the planet. Furthermore, wave energy is predictable, constant and more flexible than other renewable sources.