Projects

Ca' Foscari researchers take part in a number of strategic projects of relevance.
This section presents all on-going projects related to Ca' Foscari's Global Challenges. To  discover the past projects, please visit the Archive.

PARIS REINFORCE - Delivering on the Paris Agreement: A demand-driven, integrated assessment modelling approach

PARIS REINFORCE aims to underpin climate policymaking with authoritative scientific processes and results, and enhance the science-policy interface, in light of the Paris Agreement and associated challenges. In particular, the aim is to develop a novel, demand-driven, IAM-oriented assessment framework for effectively supporting the design and assessment of climate policies in the EU as well as in other major emitters and selected less emitting/developed countries, in respect to the Paris Agreement objectives. Building on an exhaustive facilitative dialogue and a strong ensemble of complementary -in terms of mathematical structure, geographical, sectoral and focus coverage- integrated assessment, energy system and sectoral models, we will create an open-access and transparent data exchange platform, I2AM PARIS, in order to support the effective implementation of Nationally Determined Contributions, the preparation of future action pledges, the development of 2050 decarbonisation strategies, and the reinforcement of the 2023 Global Stocktake. The project also seeks to enhance the legitimacy of the scientific processes in support of climate policymaking, by introducing an innovative stakeholder inclusion framework and improving the transparency of the employed models, methods and tools. PARIS REINFORCE will introduce innovative integrative processes, in which IAMs are further coupled with well-established methodological frameworks, in order to improve the robustness of modelling outcomes against different types of uncertainties.

Project website / EU Cordis database
Researcher: Carlo Carraro
Duration: 01/06/2019 - 31/05/2025
Funding: Horizon 2020 Societal Challenges - Climate action, Environment, Resource Efficiency and Raw Materials