INT axis

Successfully deploy renewable energies in a sustainable manner

Axis definition

The TASE research program studies the economic, social and environmental impacts of the energy transition. It mobilizes interdisciplinary socio-technical approaches that will renew the frameworks for modeling and analyzing transformations in the energy system.


Challenges and expectations

Successful mass deployment of renewable energies will not be possible on a technological basis alone. Energy players, stakeholders and users all need to be taken into account. To achieve this, it is essential to mobilize various fields of research from engineering, sociology, economics, geography, political science, etc. The program proposes a meeting of these different approaches to gain a better understanding of the dynamics of acceptance or rejection of the energy transition, and of its social and economic impacts.


The environmental cost of energy technologies needs to be assessed over their entire life cycle. To this end, the program proposes analytical approaches at several scales, enabling us to better measure the environmental impact of energy technologies on resources, territories and biodiversity.

INT projects

 AGRIPV-ER
AGRIPV-ER
Agrivoltaics for improved resilience in the water-energy-food nexus: application to the Euro-Mediterranean region.
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 BIOFLEXPV
BIOFLEXPV
Biobased encapsulation materials for flexible photovoltaic modules
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 FLEX-MEDIATION
FLEX-MEDIATION
Analyser les intermédiations sociales et les régulations politiques relatives à la consommation d’électricité
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Illustration projet FlexTASE. Ville vue du dessus avec énergies renouvelables
FLEXTASE
Socio-technical study of flexibility for massive RE integration
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 LCA-TASE
LCA-TASE
Assessing and mitigating the environmental impact of energy systems
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 POWDEV
POWDEV
Optimizing the resilience of power systems to extreme climatic events
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 Smart4Module
Smart4Module
Reduce the environmental impact of PV cell modules.
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 SOLSTICE
SOLSTICE
Reduce or even substitute Indium and Silver in the sustainable industrial deployment of high-efficiency solar cells.
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