Karlsruhe Institute of Technology, Campus Alpin
Karlsruhe Institute of Technology, Campus Alpin
1 Projects, page 1 of 1
assignment_turned_in ProjectFrom 2021Partners:IRD, Ecole National Superieur d'Agriculture / University of Thies, INSU, Karlsruhe Institute of Technology, Campus Alpin, University of Energy and Natural Resources (UENR) / Regional Center for Energy and Environmental Sustainability +13 partnersIRD,Ecole National Superieur d'Agriculture / University of Thies,INSU,Karlsruhe Institute of Technology, Campus Alpin,University of Energy and Natural Resources (UENR) / Regional Center for Energy and Environmental Sustainability,IGE,Ecole National Superieur dAgriculture / University of Thies,Grenoble INP - UGA,African Centre of Excellence for Training and Research in Water Science and Technology, Energy and Environment in West and Central Africa / International Institute for Water, Energy and Environmental Engineering,UMI RESILIENCES,AfriGEO / Regional Centre for Mapping of Resources for Development (RCMRD),Délégation Alpes,Center for Development Research,African Centre of Excellence Climate Change, Biodiversity and Sustainable Agriculture / University Félix Houphouët Boigny,Institut des Géosciences de lEnvironnement,UGA,University of Würzburg,CNRSFunder: French National Research Agency (ANR) Project Code: ANR-21-SDG1-0007Funder Contribution: 72,592.8 EURHydropower generation (HPG) represents the largest renewable electricity source with multiple purpose functions worldwide especially in West Africa (WA) where it contributes significantly to the energy security. However, this source is sensitive to climate change and projected HPG are associated with uncertainties. The magnitude and the sign of projected change of HPG vary according to the river basin and country. Part of uncertainties in the future of HPG in WA is associated with the lack of observations data which limit the calibration of models and the simulation of hydrological dynamics and also, with uncertainties associated with climate projections used to force hydrological and water resources models. Land use changes associated with socioeconomic development are rarely taken into account while they are crucial, especially over multi-purpose dams. It becomes then difficult for dam managers and local authorities to make decisions or to plan under these uncertainties in the aim to engage in a climate resilient pathway. This project aims to build communities of practice with HPG stakeholders (dam managers, local policy makers, representative of civil society) to address the challenges, synergies and trade-off in the climate land energy water nexus in WA for a sustainable management and planning of HPG under a context of climate and land use changes. This will be achieved through two elicitation and participatory workshops with stakeholders, two training sessions to Early Career Researchers of the project on "Random Forest, use of downscaled climate data" (top-down methods) and "Decision Scaling" (bottom-up method) which will be implemented with local stakeholders in each of the 4 major dams in Ghana, Senegal, Burkina Faso and Ivory Coast. During the implementation, the project will foster sharing and common learning between the 4 case studies from results of comparative study of these 3 practices. The project targets the nexus between SDG 13 (climate), 6 (water) and 7 (energy) with positive effects on SDG 15 (land) and 17 (partnership)for sustainable HPG
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