Hydro Energy Articles
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Project - Floating Platform System
The Glosten Associates designed a tension leg platform (TLP) floating system demonstrator through a Front End Engineering Design (FEED) Study About the project A FEED study into the design of an offshore wind floating platform system demonstrator Tension Leg Platform designed in partnership with Alstom 150-6MW Haliade turbine Floating turbine technology is of strategic importance to any ...
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Project - Tidal Energy Converter - Phase One
Phase 1 of the project, launched in May 2012, was led by Atlantis Resources Corporation and project managed by Black & Veatch. The project drew on the systems integration and technology skills of Lockheed Martin, as well as many leading technology providers in the marine industry Identification of the best optimised design for a commercially viable 200MW tidal stream array Assessed ...
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Offshore tidal lagoon in Scotland - Case Study
Tidal Electric is developing a proposal for an offshore tidal lagoon in Scotland. The proprietary technology enabling the lagoon to be placed offshore allows the plant to deliver large scale, carbon free power at unmatched value. Scotland's tremendous tidal resource and goal of producing as much renewable electricity as it consumes by 2020 make it an ideal partner for an offshore tidal ...
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Offshore tidal lagoon- Mexico - Case Study
Tidal Electric is pursuing a project in Mexico's Gulf of California, between Baja Norte and Sonora. The gulf holds a very significant tidal resource and is positioned to provide electricity to both Southern California and to Mexico, making it an ideal location for a large scale Tidal Electric ...
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Project - Global Ocean Energy Alliance
The Climate Institute is serving as the Secretariat for the Global Ocean Energy Alliance (GLOEA), which is accelerating the development of ocean energy technologies by means of partnerships that mobilize technical, human and financial resources. This work aims to establish a global community with the capacity to develop a pipeline of ocean energy projects to serve islands, cities and coastal ...
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Project - Emerging Technologies Initiative
The Climate Institute seeks partnerships with startup initiatives and emerging technology development efforts that transform renewable energy systems. We welcome initiatives and demonstration projects to help advance meaningful climate solutions. The Climate Institute supports our colleagues and partners working on emerging technologies by providing research assistance, intern support, ...
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Green Hydrogen: An Analytical Perspective on Clean Energy
Introduction In the quest for a sustainable and cleaner future, Green Hydrogen emerges as a beacon of hope that not only addresses our immediate energy needs but also lays the foundation for a transformative tomorrow. As we stand at the crossroads of environmental challenges and the need for clean energy, Green Hydrogen shines as a powerful solution that holds immense potential. The future ...
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HE Dubrava, Croatia - Case Study
The road crossing over the dam at the hydroelectric power plant Dubrava is illuminated by our company’s E+ DOVE product range, developed for outdoor, street and urban ...
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Procedure for the establishment of a small-hydro project
The objective here is to synthesize into three steps the various procedures that the designer (public or private) has to go through in order to succeed in a small-hydro project. We first of all strongly recommend measuring discharges as regularly as possible, at least once a week or, ideally, continuously, and to have a surveyor measure up- and downstream altitudes. A simple method of measuring ...
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Silicon Powder Revolution: Powering the Future of Energy Storage - Case Study
The Challenge In the ever-evolving landscape of energy storage technology, the demand for efficient and sustainable solutions has intensified, prompting a significant shift in the materials utilized for lithium-ion batteries. Anode active materials (AAM) are generally made from carbon-based materials like graphite, silicon, or a combination of the two, with graphite having been the most used ...
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Project - 1.6 MW, NY
Year: 2017 Running Gear: Vertical shaft Kaplan turbine with synchronous generator. Scope: Replacement control system and exciter. Located in upstate NY, this hydroelectric plant was built in the mid-1980s in response to the federal PURPA legislation. The site is well suited to hydropower, with a small labyrinth dam spanning the river banks just above a beautiful cascade into a deep gorge. ...
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Project - 455 KW, MA
Year: 2016 Running Gear: 3 units: Vertical shaft synchronous generator driven by a Francis turbine. Vertical shaft synchronous generator driven by a propeller turbine, and a vertical shaft induction generator driven through a flat belt by a Kaplan turbine. Scope: Replacement control system, switchgear, excitation, wicket gate operators.. Located in Massachusetts, this hydroelectric plant ...
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Project - 3.4 MW, NC
Year: 2022 Running Gear: 2 vertical shaft Francis turbines with synchronous generators Scope: Replacement of control system, excitation, and governors Set in a resort town in the mountains of North Carolina, this hydroelectric project was originally constructed in 1925-1926 by a private developer. Its primary purpose was to create a beautiful lake as the centerpiece of a huge resort/real ...
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Project - 600 KW, NY
Year: 2018 Running Gear: Three units: One vertical shaft Francis turbine with synchronous generator. One horizontal shaft turbine with synchronous generator. One horizontal shaft double-runner turbine with synchronous generator. Scope: Replacement control system, switchgear, and HPU. Black start capability. Located in a small town in the Adirondak mountains in upstate NY, this ...
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Project - 1 MW, NC
Year: 2021 Running Gear: 2 Vertical shaft Francis turbines with synchronous generators Scope: Replacement of control system, exciters, and HPUs Originally part of a large cotton mill complex in North Carolina dating back to the 1800s, this 1 MW hydropower plant stayed in operation into the 2000s, longer than the rest of the declining mill town. The cotton mill itself finally shut down in ...
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Project - 4 MW, MA
Year: 2018 Running Gear: 2 Vertical shaft Francis turbines with synchronous generators Scope: Replacement of control system and exciters This hydroelectric plant is located in central MA on a highly developed river, with multiple hydro plants operating both upstream and downstream of the project. Originally constructed in 1918 by a local manufacturing company, the project today consists of ...
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Kennet Square, PA - Case Study
This is the first install for the T-MH turbine. The turbine was tested with francis and propellor runners. Several different generators and alternators were also tested. AERL in Australia modified one of their Maximum Power Point Trackers for hydro applications at our request. To the best of our Knowledge this was the first application of it’d kind. The tracker was a great success and ...
By Nautilus LLC
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Application of DC meters in PV power generation.
Application of DC meters in PV power generation. PV power generation systems convert solar energy into electrical energy by utilizing solar panels. This type of energy is clean and does not rely on conventional energy sources. PV power generation systems comprise solar panels, controllers, inverters, DC power supplies, and energy meters. The use of DC meters in PV power generation is very ...
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Drägsby Vattenkraft - Tjusterby, Finland - Case Study
Tjusterby hydro power plant is located near the city of Porvoo in Finland and it generates power for the mansion of ...
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Eesti Energia AS - Linnamae, Estonia - Case Study
Linnamae plant is located in northern Estonia in Jagala-river, about 1.5 km from the coast of Baltic Sea and 30 km east from the city of Tallinn. The original plant has been designed by Finnish professor Axel Verner Juselius in the year 1917 and it has been constructed during 1922-24. The plant has been exploded during the Second World War in 1941. The original plant consisted of spillover dam, ...
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