A mean field model for the development of renewable capacities

Clémence Alasseur; Matteo Basei; Charles Bertucci; Alekos Cecchin

doi:10.1007/s11579-023-00348-6

A mean field model for the development of renewable capacities

Clémence Alasseur
, Matteo Basei
, Charles Bertucci
, Alekos Cecchin

Research output: Contribution to journal › Article › peer-review

Abstract

We propose a model based on a large number of small competitive producers of renewable energies, to study the effect of subsidies on the aggregate level of capacity, taking into account a cannibalization effect. We first derive a model to explain how long-time equilibrium can be reached on the market of production of renewable electricity and compare this equilibrium to the case of monopoly. Then we consider the case in which other capacities of production adjust to the production of renewable energies. The analysis is based on a master equation and we get explicit formulae for the long-time equilibria. We also provide new numerical methods to simulate the master equation and the evolution of the capacities. Thus we find the optimal subsidies to be given by a central planner to the installation and the production in order to reach a desired equilibrium capacity.

Original language	English
Pages (from-to)	695-719
Number of pages	25
Journal	Mathematics and Financial Economics
Volume	17
Issue number	4
DOIs	https://doi.org/10.1007/s11579-023-00348-6
Publication status	Published - 1 Dec 2023

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Energy transition
Master equation
Mean field equilibrium
Optimal incentives

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10.1007/s11579-023-00348-6

Cite this

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title = "A mean field model for the development of renewable capacities",

abstract = "We propose a model based on a large number of small competitive producers of renewable energies, to study the effect of subsidies on the aggregate level of capacity, taking into account a cannibalization effect. We first derive a model to explain how long-time equilibrium can be reached on the market of production of renewable electricity and compare this equilibrium to the case of monopoly. Then we consider the case in which other capacities of production adjust to the production of renewable energies. The analysis is based on a master equation and we get explicit formulae for the long-time equilibria. We also provide new numerical methods to simulate the master equation and the evolution of the capacities. Thus we find the optimal subsidies to be given by a central planner to the installation and the production in order to reach a desired equilibrium capacity.",

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T1 - A mean field model for the development of renewable capacities

AU - Alasseur, Clémence

AU - Basei, Matteo

AU - Bertucci, Charles

AU - Cecchin, Alekos

PY - 2023/12/1

Y1 - 2023/12/1

N2 - We propose a model based on a large number of small competitive producers of renewable energies, to study the effect of subsidies on the aggregate level of capacity, taking into account a cannibalization effect. We first derive a model to explain how long-time equilibrium can be reached on the market of production of renewable electricity and compare this equilibrium to the case of monopoly. Then we consider the case in which other capacities of production adjust to the production of renewable energies. The analysis is based on a master equation and we get explicit formulae for the long-time equilibria. We also provide new numerical methods to simulate the master equation and the evolution of the capacities. Thus we find the optimal subsidies to be given by a central planner to the installation and the production in order to reach a desired equilibrium capacity.

AB - We propose a model based on a large number of small competitive producers of renewable energies, to study the effect of subsidies on the aggregate level of capacity, taking into account a cannibalization effect. We first derive a model to explain how long-time equilibrium can be reached on the market of production of renewable electricity and compare this equilibrium to the case of monopoly. Then we consider the case in which other capacities of production adjust to the production of renewable energies. The analysis is based on a master equation and we get explicit formulae for the long-time equilibria. We also provide new numerical methods to simulate the master equation and the evolution of the capacities. Thus we find the optimal subsidies to be given by a central planner to the installation and the production in order to reach a desired equilibrium capacity.

KW - Energy transition

KW - Master equation

KW - Mean field equilibrium

KW - Optimal incentives

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SP - 695

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JF - Mathematics and Financial Economics

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ER -

A mean field model for the development of renewable capacities

Abstract

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Keywords

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