Summary
The reduction of greenhouse gas emissions is a vital target for the coming decades. From a technology perspective, power
generation is the largest responsible for CO2 emissions, therefore great mitigation efforts will be required in this area. From
a policy perspective, it is common opinion that the European Union is and will remain leader in implementing clean policies.
Basing on these considerations, the power sector and the European Union will be the two key actors of this project. The
main tool adopted in this work will be WITCH, the integrated assessment model developed at Fondazione Eni Enrico Mattei
(FEEM).
The description of the power generation sector in WITCH is quite detailed, but needs to be integrated, especially as far as
the electric infrastructure downstream the power generation system is concerned. In the first half of the project, developed at
the outgoing host, the modeling of the electric sector will thus be completed and refined. In particular, four main aspects
need to be assessed: i) system integration (i.e. the issues related to the non-negligible penetration of intermittent renewables
in the grid), ii) electricity storage, iii) electrical grid, and iv) electricity trade.
In the second half of the project, developed at the return host, the improved WITCH model will be employed in scenario
assessment calculations. Firstly, the prospects in Europe of renewables, CCS and nuclear will be analysed. In particular,
attention will be focused not so much on the pure technology aspects, but rather on policy issues such as the role of
incentives in renewable diffusion, the slow CCS deployment, or the effects of the nuclear reactors ageing, or of their phaseout.
Secondly, the focus will move on assessing the role of these technologies (and the consequent evolution of the electric
infrastructure) according to different mitigation scenarios, and in particular considering different levels of global participation
in EU-led climate mitigation.
generation is the largest responsible for CO2 emissions, therefore great mitigation efforts will be required in this area. From
a policy perspective, it is common opinion that the European Union is and will remain leader in implementing clean policies.
Basing on these considerations, the power sector and the European Union will be the two key actors of this project. The
main tool adopted in this work will be WITCH, the integrated assessment model developed at Fondazione Eni Enrico Mattei
(FEEM).
The description of the power generation sector in WITCH is quite detailed, but needs to be integrated, especially as far as
the electric infrastructure downstream the power generation system is concerned. In the first half of the project, developed at
the outgoing host, the modeling of the electric sector will thus be completed and refined. In particular, four main aspects
need to be assessed: i) system integration (i.e. the issues related to the non-negligible penetration of intermittent renewables
in the grid), ii) electricity storage, iii) electrical grid, and iv) electricity trade.
In the second half of the project, developed at the return host, the improved WITCH model will be employed in scenario
assessment calculations. Firstly, the prospects in Europe of renewables, CCS and nuclear will be analysed. In particular,
attention will be focused not so much on the pure technology aspects, but rather on policy issues such as the role of
incentives in renewable diffusion, the slow CCS deployment, or the effects of the nuclear reactors ageing, or of their phaseout.
Secondly, the focus will move on assessing the role of these technologies (and the consequent evolution of the electric
infrastructure) according to different mitigation scenarios, and in particular considering different levels of global participation
in EU-led climate mitigation.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/706330 |
| Start date: | 16-01-2017 |
| End date: | 15-01-2019 |
| Total budget - Public funding: | 164 203,80 Euro - 164 203,00 Euro |
Cordis data
Original description
The reduction of greenhouse gas emissions is a vital target for the coming decades. From a technology perspective, powergeneration is the largest responsible for CO2 emissions, therefore great mitigation efforts will be required in this area. From
a policy perspective, it is common opinion that the European Union is and will remain leader in implementing clean policies.
Basing on these considerations, the power sector and the European Union will be the two key actors of this project. The
main tool adopted in this work will be WITCH, the integrated assessment model developed at Fondazione Eni Enrico Mattei
(FEEM).
The description of the power generation sector in WITCH is quite detailed, but needs to be integrated, especially as far as
the electric infrastructure downstream the power generation system is concerned. In the first half of the project, developed at
the outgoing host, the modeling of the electric sector will thus be completed and refined. In particular, four main aspects
need to be assessed: i) system integration (i.e. the issues related to the non-negligible penetration of intermittent renewables
in the grid), ii) electricity storage, iii) electrical grid, and iv) electricity trade.
In the second half of the project, developed at the return host, the improved WITCH model will be employed in scenario
assessment calculations. Firstly, the prospects in Europe of renewables, CCS and nuclear will be analysed. In particular,
attention will be focused not so much on the pure technology aspects, but rather on policy issues such as the role of
incentives in renewable diffusion, the slow CCS deployment, or the effects of the nuclear reactors ageing, or of their phaseout.
Secondly, the focus will move on assessing the role of these technologies (and the consequent evolution of the electric
infrastructure) according to different mitigation scenarios, and in particular considering different levels of global participation
in EU-led climate mitigation.
Status
CLOSEDCall topic
MSCA-IF-2015-GFUpdate Date
28-04-2024
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