Climate impacts on hydropower in Colombia: A multi-model assessment of power sector adaptation pathways

Santiago Arango-Aramburo, Sean W.D. Turner, Kathryn Daenzer, Juan Pablo Ríos-Ocampo, Mohamad I. Hejazi, Tom Kober, Andrés C. Álvarez-Espinosa, Germán D. Romero-Otalora, Bob van der Zwaan

Research output: Contribution to journalArticlepeer-review

53 Scopus citations

Abstract

Climate change is likely to affect water availability and therefore hydropower generation in many regions of the world. In drying regions, hydropower generation may be impaired, creating a need for new power investments that would otherwise have been unnecessary. In this study we apply two partial equilibrium models (GCAM and TIAM-ECN) and two general equilibrium models (MEG4C and Phoenix) to identify possible pathways of power sector adaptation for Colombia under climate change. We adopt two GCM projections that deteriorate hydropower generation over the next three decades, and simulate each for two radiative forcing scenarios (RCP8.5 and RCP4.5). Relative to Colombia's projected power demand growth over the coming decades, losses in hydropower generation are marginal. Nonetheless, climate-driven losses in hydropower must be compensated by alternative technologies´expansion, which vary significantly across models. When climate policy is implemented (RCP4.5), three distinct expansion pathways emerge: increased solar and wind energy (TIAM-ECN); significant power demand reductions (Phoenix and MEG4C); and increased fossil resources with carbon dioxide capture and storage (GCAM). We show the need to explore the tradeoffs/synergies among alternative expansion pathways and their potential impacts on other sectors (e.g. water and land), and for effective policies to incentivize their adoption in Colombia.

Original languageEnglish
Pages (from-to)179-188
Number of pages10
JournalEnergy Policy
Volume128
DOIs
StatePublished - May 2019
Externally publishedYes

Funding

The research that allowed the publication of this paper has been produced with the financial assistance of the European Union (Grant EuropeAid/131944/C/SER/Multi) in the context of the CLIMACAP project and of the U.S. Agency for International Development and U.S. Environmental Protection Agency in the context of the LAMP project. Santiago Arango-Aramburo also thanks financial support from the project Herramienta para la valoración y priorización de medidas de adaptación al cambio climático en el sector minero energético colombiano (Grant number: 1118-994-59398 )”, financed by Colciencias and UPME . The contents of this publication are the sole responsibility of the authors and can in no way be taken to reflect the views of the European Union or the U.S. government. The authors would like to thank the feedback and efforts from all CLIMACAP and LAMP project partners for enabling the research results reported in this article.

FundersFunder number
UPME
U.S. Environmental Protection Agency1118-994-59398
U.S. Environmental Protection Agency
United States Agency for International Development
Departamento Administrativo de Ciencia, Tecnología e Innovación
European CommissionEuropeAid/131944/C/SER/Multi
European Commission

    Keywords

    • Climate change
    • Electricity supply
    • Energy modeling
    • Energy-water nexus
    • Hydropower generation

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