Abstract
Hydropower represents an important pillar of electricity systems in many countries. It not only plays an important role in mitigating climate change, but is also subject to climate-change impacts. In this paper, we use the Swiss electricity market model Swissmod to study the effects of changes in water availability due to climate change on Swiss hydropower. Swissmod is an electricity dispatch model with a plant-level representation of 96% of Swiss hydropower plants and their interrelations within cascade structures. Using this detailed model in combination with spatially disaggregated climate-change runoff projections for Switzerland, we show that climate change has ambiguous impacts on hydropower and on the overall electricity system. Electricity prices and overall system costs increase under dry conditions and decrease under average or wet conditions. While the change of seasonal patterns, with a shift to higher winter runoff, has positive impacts, the overall yearly inflow varies under hydrological conditions. While average and wet years yield an increase in inflows and revenues, dry years become drier, resulting in the opposite effect. Even though different in magnitude, the direction of impacts persists when applying the same changes in inflows to the 2050 electricity system.
Highlights
Hydropower has a large share in global electricity generation and is still the most widely used source of renewable electricity [1]
Our paper adds to the existing literature in three ways: First, we link the hydrologic impacts of climate change with electricity market modeling to assess feedback effects between the two systems; second, we provide specific results for Switzerland as a case study for a hydro-rich country; And third, Souustraisntaubidlityy 2d0e1s8i,g1n0, a25ll4o1ws us to identify the isolated impact of changes in runoff patterns and quan4toitfi2e3s
We study the effects of climate change on Swiss hydropower
Summary
Hydropower has a large share in global electricity generation and is still the most widely used source of renewable electricity [1]. In this paper, we focus on the impact of climate change on hydropower in a hydro-rich country (Switzerland) and feed future hydrologic inflows into a yearly electricity market model (Swissmod [23]) with an hourly resolution and a high degree of detail on hydropower operation. This modeling approach enables us to capture possible quantitative effects of changes in water availability and the resulting variation in potential generation, and to calculate realized generation and revenues for hydropower operators under market constraints. We conclude by discussing our findings in light of prior research and by providing some limitations of our approach and ideas for future research
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