Influence of Time Complementarity on Energy Storage through Batteries in Hydro PV Hybrid Energy System - Computational Water, Energy, and Environmental Engineering

CWEEE > Vol.7 No.3, July 2018

Influence of Time Complementarity on Energy Storage through Batteries in Hydro PV Hybrid Energy System ()

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DOI: 10.4236/cweee.2018.73010 1,249 Downloads 2,616 Views Citations

Author(s)

Frederico A. During Fo¹, Alexandre Beluco¹, Elton G. Rossini², José de Souza³

Affiliation(s)

¹Universidade Federal do Rio Gramde do Sul, Instituto de PesquisasHidráulicas, Porto Alegre, RS, Brazil.
²Universidade Estadual do Rio Grande do Sul, Porto Alegre, RS, Brazil.
³Fundação Liberato Salzano Vieira da Cunha, Novo Hamburgo, RS, Brazil.

ABSTRACT

The notion of energetic complementarity can be a tool for energy resource managers to prioritize energy generation projects based on renewable resources in both interconnected and independent systems. As a tool in decision-making, it is important to know better the influence of energetic complementarity on the performance of hybrid systems especially with regard to energy shortages but also in relation to other parameters. In recent years, hydro PV hybrid systems have become a growing target of researchers and designers for the idea of installing photovoltaic modules on the water surface of reservoirs. Energetic complementarity has three components: time-complementarity, energy-amplitude and amplitude-complementarity. This paper is dedicated to the study of the influence of time-complementarity on the storage of energy through batteries in hydro PV hybrid systems. The method applied is in the literature and suggests the simulation of the system under study with the idealization of energy availabilities, to remove the effects of climatic variations and the characteristic intermittency of renewable resources. Simulations were performed with the well-known software Homer. The results provided the variations of the states of charge of the batteries as a function of different time-complementarities, indicating as expected better performances associated to higher time-complementarities. The results indicated that the cost of energy for a hybrid system with 28 batteries was equal to US$ 0.502 per kWh and that this cost increased as the time complementarity between energy resources moved away from the situation corresponding to full complementarity. The simulations also showed that the maintenance of the zero failure condition supplying the demands of the consumer loads requires that the load be reduced to 52% if the complementarity is reduced from the full complementarity to zero complementarity, with the cost of energy going from US$ 0.502 per kWh to US$ 0.796 per kWh. The results also allow a better understanding of the influence of time complementarity on the performance of hybrid systems.

KEYWORDS

Energetic Complementarity, Time Complementarity, Hybrid Systems, Hydro Power, PV Power, Hydro PV Hybrid Systems

Share and Cite:

During Fo, F. , Beluco, A. , Rossini, E. and Souza, J. (2018) Influence of Time Complementarity on Energy Storage through Batteries in Hydro PV Hybrid Energy System. Computational Water, Energy, and Environmental Engineering, 7, 142-159. doi: 10.4236/cweee.2018.73010.

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