Georgia Coastal Research Council: Offshore Energy. Focus Area: Offshore Renewable Energy. There is growing interest in renewable energy technologies: they are cleaner and more sustainable than fossil fuels; they can be developed throughout the United States; and from the economic standpoint, can create much needed jobs in the skilled labor sector. This web page highlights recent information about offshore renewable energy sources, including offshore wind and marine and hydrokinetic power (e. Focus Area: Offshore Renewable Energy. There is growing interest in renewable energy technologies: they are cleaner and more sustainable than fossil fuels; they can be developed throughout the United States; and from the. Renewable energy feedstock for production of liquid transportation fuels. B3 Initiative: Biofuels, Biopower, and Biomaterials. THE INTEGRATED BIOREFINERY. The Biorefining and Carbon Cycling Program Author: Ryan. UGA partnered with Georgia Power to install a 1-megawatt solar. The project was designed by a team of UGA Engineering students and installed in 2013 through the UGA Campus. UGA.Today: Alternative Energy. The program, funded by student. Navigate to the desired sub- topic with the green headings below. Then, within a sub- topic, you can . Please let us know of additional resources that we should include here and alert us to broken links, etc. Overview. Wave and tidal current energy – A review of the current state of research beyond technology. Resource type: Research article. Description: The oceans of the earth offer vast amounts of renewable energy. Technologies to harness the power of the seas are at an early stage of development. Even the most advances technologies, namely tidal current and ocean wave still face considerable barriers and many obstacles remain. This review provides an overview over the current state of research in the field of ocean energy. In particular, the authors focus on research beyond technology or technological improvements. This article also highlights areas where research gaps exists and where future research efforts should be directed to. Reference: Uihlein, Andreas and Davide Magagna (2. Wave and tidal current energy – A review of the current state of research beyond technology. Renewable and Sustainable Energy Reviews 5. Link: http: //www.
S1. 36. 40. 32. 11. Review and Forecast: Advancing Ocean Renewable Energy in the United States. Resource type: Online article. Description: This article outlines the U. S. Energy Department's Wind and Water Power Technologies Office’s role in advancing the development of energy technologies that harness the nation's ocean renewable energy, including offshore wind, wave, tidal and ocean current resources. Reference: Jose Zayas (2. Review and Forecast: Advancing Ocean Renewable Energy in the United States. Sea Technology Magazine (January 2. Link: http: //www. Wind Technology Resource Center. Resource type: Website. Description: The Wind Technology Resource Center (WTRC) provides a central repository for research reports, publications, data sets, and online tools developed by DOE’s national laboratories and facilities. These information resources detail wind- energy- related analyses, studies, technology design, tests, and field experiments conducted by the labs from 1. The WTRC offers a variety of ways for users to browse resources, including by topic, technology, application, and state, or search based on keywords. Visitors to the resource center can begin their search with a keyword and continue narrowing the field using a host of filters on the results page. While commercial interest in ocean energy is growing significantly at a global level, there are considerable investment costs and bottlenecks that will need to be overcome. ![]() Research and funds are spread over many different wave and marine current energy concepts under development, and there is still no technology convergence. This article focuses on the latest developments and projects in ocean energy - in particular, open- sea testing facilities set up by several countries as a measure to encourage deployment and streamlining procedures. In addition, the article highlights the importance of collaborative research and development on ocean energy projects and the unique role of the Ocean Energy Systems Implementing Agreement as an intergovernmental organization promoting the use of ocean energy (wave, marine currents, tidal, ocean thermal gradients and salinity gradients) for energy extraction. Reference: Global Review of Recent Ocean Energy Activities (2. Ana Brito Melo, Eoin Sweeney, and Jose Luis Villate; Marine Technology Society Journal 4. Link: http: //www. It includes an introduction to the use of offshore wind as a renewable energy source, an overview of the components of a wind installation, a discussion of factors that are considered in siting a wind facility, the environmental considerations associated with such a project, and planning tools and ongoing offshore wind energy initiatives. Reference: Laporte, C. Offshore Wind Energy: Considerations for Georgia. Prepared by the Georgia Coastal Research Council, for the Georgia Department of Natural Resources, Coastal Resources Division. Links: http: //www. PDFs/Exec. Summ. Offshore renewable energy resources include offshore wind and solar, and ocean wave and current energies. Link: http: //www. Renewable- Energy- Program/Renewable- Energy- Guide/index. Ocean Wave Energy Ocean Current Energy. Resource type: Webpage. Description: The relatively constant flow of ocean currents carries large amounts of water across the earth’s oceans. Technologies are being developed so that this energy can be extracted from ocean currents and converted to usable power. This site provides an introduction to ocean wave energy including: ocean current energy technologies; technical challenges; environmental considerations; and links to sources for further information. Link: http: //www. Renewable- Energy- Program/Renewable- Energy- Guide/Ocean- Current- Energy. Offshore Solar Energy. Resource type: Webpage. Description: Solar energy technologies potentially suitable for use in ocean environments include concentrating solar power technology and photonic technology. This site provides an introduction to offshore solar energy including: solar energy technologies; concentrating solar power technology; solar photonic technology; and links to sources for further information. Link: http: //www. Renewable- Energy- Program/Renewable- Energy- Guide/Offshore- Solar- Energy. Ocean Energy Technology: Overview. Resource type: Report. Description: This report presents an overview of ocean energy technology as a source of renewable energy. It investigates ocean energy resources and new technologies under development to capture that energy. These technologies include: wave energy, tidal energy, marine current energy, and ocean thermal energy conversion. A brief history of the technologies is presented, as well as each technology’s commercial market development status. Benefits and barriers to research and development are also examined along with various devices currently being validated in the field. Reference: Ocean Energy Technology: Overview (2. Kari Burman and Andy Walker; Prepared for the U. S. Department of Energy Office of Energy Efficiency and Renewable Energy Federal Energy Management Program DOE/GO- 1. Link: http: //www. Water Power Program, Energy Efficiency and Renewable Energy (EERE)Resource type: Federal agency program Description: The Water Power Program, part of the EERE’s Wind and Water Power Technologies Office, researches, tests, evaluates, and develops innovative technologies capable of generating renewable, environmentally responsible, and cost- effective electricity from water resources. This includes hydropower, as well as marine and hydrokinetic energy technologies, which capture energy from waves as well as riverine, tidal, and ocean currents. EERE's work in water power technologies includes: marine and hydrokinetic technologies which convert the movement of water in waves and currents into electricity; and marine and hydrokinetic resource assessment and characterization which analyze ocean energy potential for future electricity production. Link: http: //www. Marine and Hydrokinetic Technology Resources Resource type: Website Description: This website explains how marine and hydrokinetic technologies work and highlights some of EERE’s Water Power Program's efforts in research and development in this area. The website also has links to where marine and hydrokinetic technology research and testing is being done across the country and about key terms for marine and hydrokinetic technology. Link: http: //www. Reference: Offshore Renewable Energy Research and Development (2. National Renewable Energy Laboratory, U. S. This paper highlights the technology development status of various energy conversion technologies. Reference: Overview of Ocean Renewable Energy Technologies (2. NREL Report No. JA- 5. Link: http: //www. The OES is an intergovernmental collaboration between 2. Feb 2. 01. 3) with the purpose of advancing research, development and demonstration of conversion technologies to harness energy from all forms of ocean renewable resources, such as tides, waves, currents, temperature gradient (ocean thermal energy conversion and submarine geothermal energy) and salinity gradient for electricity generation, as well as for other uses, such as desalination, through international cooperation and information exchange. Reference: Global Status and Critical Developments in Ocean Energy (2. The Executive Committee of Ocean Energy Systems. Link: http: //www. The funding will support projects that reduce the cost of electricity from MHK systems and help protect the marine environment, thus increasing sustainable electricity generation from ocean and river energy resources. The Office of Energy Efficiency and Renewable Energy expects to fund up to 1. Specifically, the funding opportunity will support projects that: 1. Integrate next- generation MHK hardware and software technologies into existing wave and current energy conversion systems and demonstrate improved systems in full- scale, open- water tests for a one- year period; and 2. Design, test, and validate environmental monitoring technologies that quantify the impacts of MHK systems in marine settings, such as acoustics, electromagnetic fields created by MHK devices and subsea cables, and interactions between these devices and marine animals. For more information, read the full opportunity at the Energy Department’s Funding Opportunity Exchange website. Link: http: //energy. Energy Department Awards $1.
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