Climate Change Assessment
SPHY quantifies the future impacts of climate change on water resources and helps to evaluate the effectiveness of adaptation strategies in a precise, sector-specific manner across different spatial and temporal scales.
Hydropower Evaluation
From assessing long-term projections of water availability, scoping regional and local hydropower potential to enabling forecasting services for operational reservoir inflow, SPHY has proven its usefulness for exploring hydropower potential.
Water Allocation and Planning
SPHY’s ability to forecast various hydrological flows under different climate scenarios provides evidence for improved water resources allocation and planning. In many countries, SPHY has also been coupled with WEAP to assess water availability and manage supply-demand gaps across different sectors in an equitable and sustainable manner.
Operational Services
The SPHY model contributes to a wide array of decision support systems with its operational services. These include stream flow forecasting for hydropower production, and soil water content and groundwater level predictions for irrigation guidance. SPHY is also capable of assimilating data from remote sensing, Unmanned Aerial Vehicles (UAVs) and in-situ sensors.
Irrigation Management
SPHY serves as a valuable tool in precision irrigation management. It has been used to provide field-specific irrigation advice for different types of crops and has also been used to evaluate the irrigation potential at larger scales.
Snow and Glacier-fed River Basins
With its ability to quantify the impacts of climate change on glacier and snow melt contributions, SPHY has been instrumental in forecasting flow regime changes and assessing water availability for energy, agriculture and other sectors in snow and glacier-fed river basins. Moreover, given its versatility, SPHY seamlessly integrates with various other hydrological models such as WEAP, SWAT and MIKE Basin.