Analyzing the Impact of Streamflow Drought on Hydroelectricity Production: A Global‐Scale Study

Wan, Wenhua ORCIDiD
Zhao, Jianshi ORCIDiD
Popat, Eklavyya ORCIDiD
Herbert, Claudia ORCIDiD
Döll, Petra ORCIDiD

DOI: https://doi.org/10.23689/fidgeo-4359
Wan, Wenhua; Zhao, Jianshi; Popat, Eklavyya; Herbert, Claudia; Döll, Petra, 2021: Analyzing the Impact of Streamflow Drought on Hydroelectricity Production: A Global‐Scale Study. In: Water Resources Research, 57, 4, DOI: https://doi.org/10.23689/fidgeo-4359. 
 
Wan, Wenhua; 1 Department of Hydraulic Engineering State Key Laboratory of Hydro‐Science and Engineering Tsinghua University Beijing China
Zhao, Jianshi; 1 Department of Hydraulic Engineering State Key Laboratory of Hydro‐Science and Engineering Tsinghua University Beijing China
Popat, Eklavyya; 3 Institute of Physical Geography Goethe University Frankfurt Frankfurt am Main Germany
Herbert, Claudia; 3 Institute of Physical Geography Goethe University Frankfurt Frankfurt am Main Germany

Abstract

Electricity production by hydropower is negatively affected by drought. To understand and quantify risks of less than normal streamflow for hydroelectricity production (HP) at the global scale, we developed an HP model that simulates time series of monthly HP worldwide and thus enables analyzing the impact of drought on HP. The HP model is based on a new global hydropower database (GHD), containing 8,716 geo‐localized plant records, and on monthly streamflow values computed by the global hydrological model WaterGAP with a spatial resolution of 0.5°. The GHD includes 44 attributes and covers 91.8% of the globally installed capacity. The HP model can reproduce HP trends, seasonality, and interannual variability that was caused by both (de)commissioning of hydropower plants and hydrological variability. It can also simulate streamflow drought and its impact on HP reasonably well. Global risk maps of HP reduction were generated for both 0.5° grid cells and countries, revealing that 67 out of the 134 countries with hydropower suffer, in 1 out of 10 years, from a reduction of more than 20% of mean annual HP and 18 countries from a reduction of more than 40%. The developed HP model enables advanced assessments of drought impacts on hydroelectricity at national to international levels.


Key Points:

A new global hydropower database and a hydroelectricity production model were developed and validated

The model simulates the impact of streamflow drought on monthly hydroelectricity production worldwide

The 1‐in‐10 year risk of hydroelectricity production reduction due to drought is assessed at both 0.5° grid cell and country levels