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The complementary nature between wind and photovoltaic generation in Brazil and the role of energy storage in utility-scale hybrid power plants

•Solar and wind resources have a relevant temporal complementarity in the Brazilian NE.•Energy mix 40% wind and 60% solar requires minimal storage capacity to supply Brazilian NE load.•Role of storage in reducing the transmission infrastructure needs for renewable energy is evaluated.•Storage increa...

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Bibliographic Details
Published in:Energy conversion and management 2020-10, Vol.221, p.113160, Article 113160
Main Authors: Antunes Campos, Rafael, Rafael do Nascimento, Lucas, Rüther, Ricardo
Format: Article
Language:English
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Summary:•Solar and wind resources have a relevant temporal complementarity in the Brazilian NE.•Energy mix 40% wind and 60% solar requires minimal storage capacity to supply Brazilian NE load.•Role of storage in reducing the transmission infrastructure needs for renewable energy is evaluated.•Storage increases dispatchability of utility-scale wind and solar power plants.•_______________________________________________________________________________________________ Solar and wind sources together provided more than half of the Brazilian Northeast electricity generation in 2019. This growing share of renewable energies in the Brazilian energy matrix increases the importance of portfolio optimization and the energy storage management. This paper assesses the complementary nature between wind and photovoltaic generation in the Brazilian Northeast, and how this complementarity, together with energy storage, can reduce the shortcomings that the corresponding natural resource intermittency imposes on these sources. The work consists of two main analyses: (i) analysis of the capability in supplying the Brazillian Northeast region power demand with a hybrid wind + solar + storage power plant; and (ii) contingency optimization analysis for hybrid wind + solar + storage power plants. The results show that wind and solar resources are consistently complementary in the region, with a daily Pearson’s Correlation Coefficient of −0.51. Also, the load supply analysis shows that a renewable energy mix based on a 40% wind and 60% solar share would require the equivalent of only 6% of its annual generation in storage capacity. An energy curtailment analysis showed that the complementary nature of the wind and solar resources, together with energy storage, can lead to a reduction of up to 11% in transmission capacity demand.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2020.113160