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    3D sustainable renewable micro power station for smart grid industrial applications

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    874-2992-1-PB 3D Franck 2015.pdf
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    Authors
    Komlanvi, Moglo
    Shafik, Mahmoud
    Ashu, Mfortaw Elvis
    Affiliation
    University of Derby
    Issue Date
    2015
    
    Metadata
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    Abstract
    The supply of clean energy and its security is becoming a global issue for all countries across the world, due to the limitations of fossil fuels resources usages for energy generations, the relative high dependency on imported fuels, their ever climbing prices and its environmental impacts. Power supply must increase as rapidly as demand to ensure sustained growth. This is the rationale upon which Governments, international organizations, researchers are accelerating investments in expanding the power system, its generation and transmission. This paper presents the preliminary research undertaken to design and develop a 3Dimentional (3D) sustainable renewable micro power station model for smart grid industrial applications. It introduces a solution to challenges in the energy generation sector which do not only refrain only to the safe supply of clean Energy. A major importance for the theoretical study of hybrid systems, based on renewable energy (photovoltaic, wind, hydro system) is the availability of the models that can be utilized to study the behavior of hybrid systems and most important, computer aided design simulation tools. As the available tools are quite limited, this paper would present the most current and up to date model which can be used for the simulation purposes of the 3D sustainable renewable micro power station for smart grid applications as well as for educational purposes.
    Citation
    Komlanvi, M. et al (2015) '3D sustainable renewable micro power station for smart grid industrial applications', International Journal of Robotics and Mechatronics, 2 (4), pp. 140-148
    Journal
    International Journal of Robotics and Mechatronics
    URI
    http://hdl.handle.net/10545/620902
    DOI
    10.21535%2Fijrm.v2i4.874
    Additional Links
    http://ojs.unsysdigital.com/index.php/ijrm/article/view/874
    Type
    Article
    Language
    en
    ISSN
    2288-5889
    ae974a485f413a2113503eed53cd6c53
    10.21535%2Fijrm.v2i4.874
    Scopus Count
    Collections
    Department of Electronics, Computing & Maths

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