Detail publikace
Design and functional description of experimental smart grid
BRADÁČ, Z. ZEZULKA, F. SZABÓ, Z. ROUBAL, Z. MARCOŇ, P.
Originální název
Design and functional description of experimental smart grid
Anglický název
Design and functional description of experimental smart grid
Jazyk
en
Originální abstrakt
The paper contains a description of an Experimental Smart Grid. The principle of the proposed design consists in improving stabilization of current grids and enabling maximum exploitation of electric energy produced by renewable sources (hydroelectric stations, photovoltaics, wind power plants). In this respect, the authors present a model where the existing grid can be interconnected with renewable energy plants in such a manner that the highest possible volume (ideally the total) of electric energy from renewable sources finds effective application
Anglický abstrakt
The paper contains a description of an Experimental Smart Grid. The principle of the proposed design consists in improving stabilization of current grids and enabling maximum exploitation of electric energy produced by renewable sources (hydroelectric stations, photovoltaics, wind power plants). In this respect, the authors present a model where the existing grid can be interconnected with renewable energy plants in such a manner that the highest possible volume (ideally the total) of electric energy from renewable sources finds effective application
Dokumenty
BibTex
@article{BUT102031,
author="Zdeněk {Bradáč} and František {Zezulka} and Zoltán {Szabó} and Zdeněk {Roubal} and Petr {Marcoň}",
title="Design and functional description of experimental smart grid",
annote="The paper contains a description of an Experimental Smart Grid. The principle of the proposed design consists in improving stabilization of current grids and enabling maximum exploitation of electric energy produced by renewable sources (hydroelectric stations, photovoltaics, wind power plants). In this respect, the authors present a model where the existing grid can be interconnected with renewable energy plants in such a manner that the highest possible volume (ideally the total) of electric energy from renewable sources finds effective application",
address="Technical University – Sofia, Plovdiv branch",
chapter="102031",
institution="Technical University – Sofia, Plovdiv branch",
number="19",
volume="2013",
year="2013",
month="may",
pages="313--317",
publisher="Technical University – Sofia, Plovdiv branch",
type="journal article - other"
}