GC43A-0685:
Global Potential for Hydro-generated Electricity and Climate Change Impact
Thursday, 18 December 2014
Yuyu Zhou1, Mohamad Issa Hejazi2, Clarke Leon1, Katherine V Calvin3, Allison M Thomson4 and Hong-Yi Li3, (1)Joint Global Change Research Institute, College Park, MD, United States, (2)Joint Global Change Research Institute at the University of Maryland, Pacific Northwest National Laboratory, College Park, MD, United States, (3)Pacific Northwest National Laboratory, Richland, WA, United States, (4)Joint Global Change Research Institute, Pacific Northwest National Laboratory, College Park, MD, United States
Abstract:
Hydropower is a dominant renewable energy source at the global level, accounting for more than 15% of the world’s total power supply. It is also very vulnerable to climate change. Improved understanding of climate change impact on hydropower can help develop adaptation measures to increase the resilience of energy system. In this study, we developed a comprehensive estimate of global hydropower potential using runoff and stream flow data derived from a global hydrologic model with a river routing sub-model, along with turbine technology performance, cost assumptions, and environmental consideration (Figure 1). We find that hydropower has the potential to supply a significant portion of the world energy needs, although this potential varies substantially by regions. Resources in a number of countries exceed by multiple folds the total current demand for electricity, e.g., Russia and Indonesia. A sensitivity analysis indicates that hydropower potential can be highly sensitive to a number of parameters including designed flow for capacity, cost and financing, turbine efficiency, and stream flow. The climate change impact on hydropower potential was evaluated by using runoff outputs from 4 climate models (HadCM3, PCM, CGCM2, and CSIRO2). It was found that the climate change on hydropower shows large variation not only by regions, but also climate models, and this demonstrates the importance of incorporating climate change into infrastructure-planning at the regional level though the existing uncertainties.