A framework to evaluate and compare synthetic streamflow scenario generation models

Felipe Treistman; Débora Dias Jardim Penna; Lucas de Souza Khenayfis; Nelson Bernardo Rodrigues Cavalcante; Francisco de Assis de Souza Filho; Renan Vieira Rocha; Ályson Brayner Estácio; Larissa Zaira Rafael Rolim; João Dehon de Araújo Pontes Filho; Victor Costa Porto; Sullyandro Oliveira Guimarães; José Francisco Moreira Pessanha; Victor Andrade de Almeida; Priscilla Dafne Shu Chan; Thiago Lappicy; Carlos Henrique Ribeiro Lima; Daniel Henrique Marco Detzel; Marcelo Rodrigues Bessa

doi:10.1590/2318-0331.282320230115

Revista Brasileira de Recursos Hídricos (Nov 2023)

A framework to evaluate and compare synthetic streamflow scenario generation models

Felipe Treistman,
Débora Dias Jardim Penna,
Lucas de Souza Khenayfis,
Nelson Bernardo Rodrigues Cavalcante,
Francisco de Assis de Souza Filho,
Renan Vieira Rocha,
Ályson Brayner Estácio,
Larissa Zaira Rafael Rolim,
João Dehon de Araújo Pontes Filho,
Victor Costa Porto,
Sullyandro Oliveira Guimarães,
José Francisco Moreira Pessanha,
Victor Andrade de Almeida,
Priscilla Dafne Shu Chan,
Thiago Lappicy,
Carlos Henrique Ribeiro Lima,
Daniel Henrique Marco Detzel,
Marcelo Rodrigues Bessa

Affiliations

Felipe Treistman: ORCiD
Débora Dias Jardim Penna
Lucas de Souza Khenayfis
Nelson Bernardo Rodrigues Cavalcante
Francisco de Assis de Souza Filho: ORCiD
Renan Vieira Rocha: ORCiD
Ályson Brayner Estácio: ORCiD
Larissa Zaira Rafael Rolim: ORCiD
João Dehon de Araújo Pontes Filho: ORCiD
Victor Costa Porto: ORCiD
Sullyandro Oliveira Guimarães: ORCiD
José Francisco Moreira Pessanha: ORCiD
Victor Andrade de Almeida: ORCiD
Priscilla Dafne Shu Chan: ORCiD
Thiago Lappicy: ORCiD
Carlos Henrique Ribeiro Lima: ORCiD
Daniel Henrique Marco Detzel: ORCiD
Marcelo Rodrigues Bessa: ORCiD

DOI: https://doi.org/10.1590/2318-0331.282320230115
Journal volume & issue: Vol. 28

Abstract

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ABSTRACT Synthetic streamflow scenario generation is particularly important in countries like Brazil, where hydroelectric power generation plays a key role and properly handling the uncertainty of future streamflow is crucial. This paper showcases a collaborative effort within the Brazilian electrical sector to enhance streamflow scenario models, focusing on horizons up to one year. Five institutions proposed diverse methodologies, and their effectiveness was evaluated using a comparative framework. The results reveal the strengths and areas for improvement in each model. GHCen emerged as the top performer, excelling in both short-term and moving average analyses, while the PARX model demonstrated superior performance in specific regions. The PAR(p)-A, which is the official methodology in Brazil, was the second-best model in the moving average analysis. This research offers valuable insights for countries facing similar hydrothermal scheduling and scenario generation challenges.

Published in Revista Brasileira de Recursos Hídricos

ISSN: 2318-0331 (Online)
Publisher: Associação Brasileira de Recursos Hídricos
Country of publisher: Brazil
LCC subjects: Technology: Hydraulic engineering: River, lake, and water-supply engineering (General); Geography. Anthropology. Recreation: Environmental sciences
Website: http://www.abrh.org.br/RBRH

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