Abstract
AbstractElectricity 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.
Highlights
Electricity production by hydropower plants harnesses the energy of flowing water, a renewable source for electricity production
The hydroelectricity production (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°
This paper presents a new comprehensive global hydropower database (GHD) and a global HP model to assess the impact of drought on HP
Summary
Electricity production by hydropower plants harnesses the energy of flowing water, a renewable source for electricity production. In case of most hydropower plants, greenhouse gas emissions per kWh of generated electricity, mainly caused by methane emissions from reservoirs behind hydropower dams, are much smaller than emissions caused by fossil fuel-based electricity production (IHA, 2018). In 2016, HP accounted for 16.3% of the worldwide gross electricity production and for 67.1% of all renewable electricity production, while it is expected to increase by 2.5%/year through 2030 (IEA, 2019). Even though ecological impacts of hydropower stations can be considerable (e.g., Benejam et al, 2016; Bunn & Arthington, 2002), expansion of hydropower may be suitable for providing electricity in a low-carbon society, in particular in least developed and electricity-poor countries (UNCTAD, 2017)
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