Sökning: "Rainfall-runoff correlation"
Hittade 4 avhandlingar innehållade orden Rainfall-runoff correlation.
1. Influence of Sea Surface Temperature on Rainfall and Runof in Northeastern South America: Analysis and Modeling
Sammanfattning : This work represents an amalgam of a group of studies with the purpose of understanding the influence of the Pacific and Atlantic sea surface temperature on precipitation and river discharge in Northeastern South America. Sea surface temperature is a good representative of phenomena such as ENSO that, in turn, cause worldwide climate variability. LÄS MER
2. Hydrological modeling as a tool for sustainable water resources management: a case study of the Awash River Basin
Sammanfattning : The growing pressure on the world‘s fresh water resources is enforced by population growth that leads to conflicts between demands for different purposes. A main concern on water use is the conflict between the environment and other purposes like hydropower, irrigation for agriculture and domestic and industry water supply, where total flows are diverted without releasing water for ecological conservation. LÄS MER
3. Impacts of climate change on surface hydrology in the source region of the Yellow River
Sammanfattning : The source region of the Yellow River contributes about 35% of the total water yield in the Yellow River basin playing an important role for meeting the downstream water resources requirements. The declining water availability caused by climate change in the source region of the Yellow River is expected to have severe repercussions for the 110 million basin inhabitants in terms of water resources affecting agricultural productivity, municipal, and industrial water supply. LÄS MER
4. Advanced Remote Sensing Precipitation Input for Improved Runoff Simulation : Local to regional scale modelling
Sammanfattning : Accurate precipitation data are crucial for hydrological modelling and rainwater runoff management. Precipitation variability exists through a wide range of spatial and temporal scales and cannot be captured well using sparse rain gauge networks. LÄS MER