Dear Colleagues,

Hydropower has provided undoubted benefits to the people, contributing to mitigate increasingly frequent water crises, supply clear and renewable energy, and reduce hydraulic risk, among others. At the same time, hydropower has an impact on the environment and society. There is a consensus within the hydropower industry that climate change is already impacting its operation worldwide. There is a strong impetus to increase renewable energy production and hydropower can make an important contribution to this. Water and energy are interlinked, therefore benefits to be gained from integrated resource operation will be key to improving resource utilization efficiencies. Advances in operational modelling approaches that capture synergies between water-energy systems are indispensable. Much remains to be explored in terms of flexibility, scalability, water, and energy resource allocation. Globally, many countries have been changing environmental policies on various hydropower constraints such as minimum flow release, ageing infrastructure, aquatic life, flood risk, irrigation, and recreational water demand. Moreover, this along with increasing penetration of intermittent renewables will affect the operations of hydropower to provide balancing or energy storage. The goal of this Special Issue is to collect perspectives on the future of hydropower as it characterizes, describes, or models hydropower systems at different temporal and spatial scales relevant for planning, operation, and management of electricity systems. We solicit contributions which merge standpoints from various disciplines of hydrology, geomorphology, ecology, energy research and development, among others. 

We welcome studies and research which address but are not limited to the following topics:

• interactions between the hydropower energy-water with respect to climate and hydrological variables
• climate-policy, power grid management options, socio-economic mitigation measures and land use
• hydropower policy developments or business innovations
• decision support systems and optimization modelling for hydropower
• quantifying the impacts of hydropower production on ecosystems
• predicting complementarity of hydropower with wind/solar
• application of new tools, such as remote sensing techniques, to accumulate environmental dataset for hydropower planning, operation, and monitoring

Dr. Epari Ritesh Patro
Prof. Dr. Carlo De Michele
Guest Editors

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• hydropower
• renewables
• water-energy nexus
• optimization
• energy storage
• climate change
• water availability
• electricity market
• revenue
• river network
• tradeoff
• sediment