Author(s)

Pedro P. B. Machado¹, Dorel S. Ramos^1*, Gustavo C. Tenaglia¹, Julian D. Hunt²

¹Department of Electric Power and Automation Engineering, University of São Paulo, São Paulo, Brazil.
²Energy Planning Program, Federal Universityof Rio de Janeiro, Rio de Janeiro, Brazil.

This paper presents a computational method to model and evaluate if Pumped Storage Plants (PSP) have the potential to reduce the intermittency of wind generation from different sites in Brazil and to improve the operation efficiency of hydroelectric plants when operating in cascade. Since the problem to be solved does not have a defined analytic solution, a Stochastic Optimization Algorithm was implemented to reach an optimal solution to the set of equations, inputs and proposed scenarios. A case study was developed based on the Paraná River Basin and the results shows that the model can operate in a variety of different operational patterns, making feasible the evaluation of different hydrological and wind scenarios. Given the Model support, it is easy to assume different PSP storage and generation capacities, allowing the comparison between the efficiency improvement of a conventional Pumped-Storage and a Season-al-Pumped-Storage in the same scenario. The study concludes that a PSP can effectively reduce the intermittency of wind and solar sources and contribute to the optimization of the Brazilian electricity sector.

Pumped-Storage, Hydroelectricity, Electricity Supply Modelling, Genetic Algorithms, Evolutionary Algorithm

Machado, P. , Ramos, D. , Tenaglia, G. and Hunt, J. (2017) Reducing Intermittence of Renewable Energy Sources with Seasonal-Pumped-Storage Plants. Energy and Power Engineering, 9, 273-292. doi: 10.4236/epe.2017.94019.