PNNL

Abstract

There is uncertainty as to how climate change will affect hydropower generation in different regions of the world. In drying regions, impaired hydropower production could result in significant changes to the power sector implying new plants to be installed to make up for lost hydropower generation. In this article we apply two partial equilibrium models (TIAM-ECN and GCAM) and two general equilibrium models (Phoenix and MEG4C) to identify possible pathways of power sector adaptation for Colombia under climate change scenarios that reflect altered water inflow to hydropower reservoirs. Each model is run for two emissions policy scenarios and for a dry and moderate climate projection. Planned hydropower expansion for Colombia is insufficient to meet increased power demands as the country's economy grows; the contribution of hydropower to Colombia's power supply drops from ~65% currently to 30 - 50 % by 2050 depending on energy model and scenario. Climate change reduces this by a further 5 - 10 % under the dry climate projection. Climate-driven losses in hydropower will be compensated by an expansion of alternative technologies, which vary significantly across models. When climate policy is implemented, three distinct pathways emerge: expanding the electricity production from solar and wind energy (TIAM-ECN); reducing overall power demand hence exploiting savings and efficiencies (Phoenix and MEG4C); and expanding the use of fossil resources—primarily natural gas— complemented with carbon dioxide capture and storage (GCAM).