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AMADEUS es un proyecto europeo que investiga materiales y dispositivos de estado sólido para almacenar energía a muy alta temperatura. Usando aleados de silicio como materiales de cambio de fase se alcanzan calores latentes superiores a 1000 kWh/m3, propiciando la obtención de altísimas densidades energéticas. Dichos aleados suponen temperaturas de almacenamiento por encima de los 1000 ºC, muy por encima de las de los sistemas actuales de acumulación térmica. El artículo describe las actividades del proyecto y sus primeros resultados, explicando los principales retos de este nuevo sistema que combina la acumulación de energía en forma de calor en silicio fundido con dispositivos de estado sólido termiónicos y termofotovoltaicos para la posterior conversión en electricidad. AMADEUS is a H2020 project that researches on materials and solid-state devices for very high temperature energy storage and conversion. By exploring silicon-based alloys as new phase change materials (PCMs), latent heat higher than 1000 kWh/m3 is achievable, which implies a very high energy density. In addition, silicon-based PCMs lead to storage temperatures well beyond 1000 ºC, well beyond that of current state-of-the-art thermal energy storage (TES). This paper describes the project R&D activities and first results, and comments on challenges towards a new kind of systems combining latent heat energy storage in molten silicon with thermionic and thermophotovoltaic solid state heat-to-power conversion.

Sweeping changes are beginning to transform energy scenarios around the world. The gas revolution, a renaissance in petroleum technology and exploration, and a chaotic but powerful movement toward the goal of low-carbon economies are three of the principal energy trends currently interacting with structural changes in the geo-economics of the Atlantic world to present new perspectives and opportunitiesfor the diverse actors in the ‘Atlantic Basin’. This article explores how changes in the energy landscape are contributing to a reassessment of the strategic horizon. The potential impacts of the shale revolution, deep-offshore oil, biofuels and other modern renewable energies on the geopolitics of the Atlantic Basin will be assessed, and the hypothesis that an Atlantic Basin energy system is now taking shape will be evaluated, along with an analysis of anticipated impacts.

This investigation is framed in the analysis of impacts in the local development starting from the taking of decisions on projects of rural energy in Cuban communities that have as economic main activity the agricultural sector, illustrated the results of a case study where the technological most viable options are selected under the optics of the improvement of indicators of community resources. The methods and used materials are characteristic of a field work with application model are characterized for the taking of decisions in the energy area and their sources SURE, as geographical region the community isolated rural “Manantiales” linked to the agrarian sector in the republic of Cuba and the present period review in the thematic one approached. The main indicators are sketched in each resource of the rural community under the optics of the SURE in their version 3.0, as well the characterization of the prediction of the impacts at each technological option on the resources, is exhibited a mean of impacts and the classification of the technologies according to the level of achievements contribute to the indicators of community resources, obtaining as a result that the hydro energy technology is the most viable option with a value of 100 points in the scale from 0 to 100, followed by the GRID with 91.11 and of the photovoltaic systems based on silicon panels with 90.57, in this case all technologies contribute a significant level of achievements to the local community development.