Planning for a renewable future in the Brazilian power system

Planning for a renewable future in the Brazilian power system

The Brazilian electricity system is an important example of a large country relying on a high renewable energy matrix with a major focus on hydropower, which has historically allowed for low carbon electricity production. However, the increase in the demand and climate change impacts on the availabi...

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Bibliographic Details
Published in:Energy (Oxford) Vol. 164; pp. 496 - 511
Main Authors: Dranka, Géremi Gilson, Ferreira, Paula
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-12-2018
Elsevier BV
Subjects:
Alternative energy
Brazilian electricity sector
Climate change
Complementarity
Dependence
Electric industries
Electric power generation
Electricity
Electricity consumption
Energy system analysis
EnergyPLAN
Environmental impact
Historical account
Hydroelectric power
Long term planning
Renewable energy
Renewable resources
Risk analysis
Risk factors
Sustainable yield
Wind power
EnergyPLAN
Renewable energy
Brazilian electricity sector
Energy system analysis
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Summary:The Brazilian electricity system is an important example of a large country relying on a high renewable energy matrix with a major focus on hydropower, which has historically allowed for low carbon electricity production. However, the increase in the demand and climate change impacts on the availability of these renewable resources represent important challenges for long-term power planning. The contribution of this paper is twofold: Firstly, a first attempt to use the EnergyPLAN model for the analysis of the Brazilian electricity sector and in particular to study future scenarios is presented. Secondly, the possibility of achieving a 100% RES system is also addressed. The 100% RES scenario is found to be theoretically possible but a substantial increase in the overall installed capacity would be required, to support the grid mainly during the spring and summer season. The results underline the importance of seasonal complementarity of hydro and wind power and reveal how an increase in RES would add exportation potential, reducing also the Brazilian external energy dependency. The study identifies risk factors for these high RES scenarios and outlines several avenues for future research to address cost, environmental and technical uncertainties of the system. •The Brazilian power sector is analysed with EnergyPLAN computer model.•Renewable scenarios are compared for technical, cost, emissions and risk parameters.•The importance of seasonal complementarity of hydro and wind power is outlined.•The 100% RES scenario results in full decarbonization of the system at higher cost.•The 100% RES scenario results in higher exportation and lower importation potential.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2018.08.164