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Hybrid Energy for Standalone Power Systems - Energy and Power Systems TOE

  • ID: 4012968
  • Report
  • September 2016
  • Region: Global
  • 15 pages
  • Frost & Sullivan
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Hybrid energy solutions involve combining two or more different sources of energy to meet the demand of a specific location or a group of people. These sources can be used to power a remote community, an individual user, or a larger body such as a city or a town. Depending on the requirements, two renewable sources may be combined or a renewable and a non renewable source may be combined. When the need for cleaner energy generation is dominating, combining two renewable sources, such as solar and wind, solar and CHP units, will prove effective. Despite being environment friendly, the chances of inherent efficiency issues can still be high. Combining a non-renewable source (such as a diesel generator) with a renewable source to form a hybrid solution can help both the sources complement each other. While the renewable source can reduce the environmental impact of the diesel generator, the diesel generator can help meet the power demand round the clock. Combining renewable sources with the existing power grid can also help reduce the burden on the generation units of the grid.

Low-voltage direct current (LVDC) has received significant focus and attention of the global research community as it provides ample scope for generation and distribution of electricity through extensive usage of renewable energy resources. Moreover, developing countries have turned toward LVDC for providing additional electrical access to remote locations. This need for electricity access is driving establishment of a systems approach to standardization that can take LVDC well beyond individual devices.

The Energy and Power Systems (EPS) TechVision Opportunity Engine (TOE) provides insights on the latest advances in the broad range of technology related to the energy industry. The topics regularly presented range from energy storage technologies (batteries, fuel cells, flywheels and other advanced energy storage devices) to non-renewable energy such as oil and gas. Special emphasis is given to emerging areas in the renewable sector such as photovoltaics, wind energy, and geothermal energy, and emerging alternative fuels such as hydrogen, syngas, ethanol and biofuels. The EPS TOE keeps clients abreast of the latest R&D developments at major corporate and academic research centers, provides competitor intelligence and helps create strategic alliances.

The Sustainable Energy cluster provides global insights and intelligence on a wide variety of disruptive emerging technologies and platforms ranging from energy storage, advanced batteries, solar and wind energy, to unconventional oil, bioenergy, geothermal energy, and energy transmission.
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Innovations in Hybrid Energy (Renewable- renewable) for Standalone Power Systems
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  • Cranbrook Hybrid Renewable Energy Systems
  • eSite Power Solutions
  • Solar-geothermal Hybrid Renewable Energy System
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  • Strategic Perspectives (Continued)
  • Industry Contacts
Innovations in Hybrid Energy (Renewable- nonrenewable) for Standalone Power Systems
  • Solar-diesel Hybrid without the Need for Batteries
  • Solar and Diesel Hybrid for Kenyan Manufacturers
  • Wind, Solar, and Diesel Hybrid Facility
  • Wind-diesel and Solar-diesel Hybrid Solution
  • Strategic Perspectives
  • Industry Contacts
Note: Product cover images may vary from those shown