Shiftable and modulable loads are an essential part of smart grids in the effort for improving the efficiency of the power system and providing new ancillary services. Most of the researches considered shiftable loads and the impact on the power grid. Smart lighting systems are able to modulate their consumption while preserving the visual duty, therefore they can take part to this action. In this context, this paper presents an advanced experimental setup implemented in the SolarLab of the University of Palermo, with the aim of studying the impact on the end-user's energy consumption and on the power grid of smart lighting systems. In this light, different control strategies will be considered: the change of Correlated Colour Temperature of the light source, the dimming of its luminous flux and the combination of the two solutions. The research is part of the Research contract. "Feasibility study of solutions for the energy efficiency of Small Islands" having as the main goal the definition of innovative systems for improving the efficiency of residential and tertiary end-users of small Mediterranean islands.
Bonomolo M., Beccali M., Zizzo G., Mineo L., Di Pietra B., Buscemi A. (2021). Experimental Set up of Advanced Lighting Systems for Load Shifting Strategies. In 21st IEEE International Conference on Environment and Electrical Engineering and 2021 5th IEEE Industrial and Commercial Power System Europe, EEEIC / I and CPS Europe 2021 - Proceedings (pp. 1-5). Institute of Electrical and Electronics Engineers Inc. [10.1109/EEEIC/ICPSEurope51590.2021.9665407].
Experimental Set up of Advanced Lighting Systems for Load Shifting Strategies
Bonomolo M.
;Beccali M.;Zizzo G.;Mineo L.;Buscemi A.
2021-09-01
Abstract
Shiftable and modulable loads are an essential part of smart grids in the effort for improving the efficiency of the power system and providing new ancillary services. Most of the researches considered shiftable loads and the impact on the power grid. Smart lighting systems are able to modulate their consumption while preserving the visual duty, therefore they can take part to this action. In this context, this paper presents an advanced experimental setup implemented in the SolarLab of the University of Palermo, with the aim of studying the impact on the end-user's energy consumption and on the power grid of smart lighting systems. In this light, different control strategies will be considered: the change of Correlated Colour Temperature of the light source, the dimming of its luminous flux and the combination of the two solutions. The research is part of the Research contract. "Feasibility study of solutions for the energy efficiency of Small Islands" having as the main goal the definition of innovative systems for improving the efficiency of residential and tertiary end-users of small Mediterranean islands.
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