The electricity system value of the local acceptance of onshore wind in Europe

James Price; Guillermo Valenzuela-Venegas; Oskar Vågerö; Marianne Zeyringer; Monika Bucha; Ruihong Chen; Adrienne Etard; Andrea N. Hahmann; Alena Lohrmann; Russell C. McKenna; Christian Mikovits; Evangelos Panos; Meixi Zhang; Luis Ramirez Camargo

doi:10.48550/arXiv.2603.28279

The electricity system value of the local acceptance of onshore wind in Europe

James Price
, Guillermo Valenzuela-Venegas
, Oskar Vågerö
, Marianne Zeyringer
, Monika Bucha
, Ruihong Chen
, Adrienne Etard
, Andrea N. Hahmann
, Alena Lohrmann
, Russell C. McKenna
, Christian Mikovits
, Evangelos Panos
, Meixi Zhang
, Luis Ramirez Camargo

Integr. of Intermittent Renewable Energy

Research output: Working paper › Preprint › Academic

Abstract

The large-scale deployment of wind power is central to Europe`s energy transition but faces challenges due to its social and environmental impacts on communities. Here we assess how the tolerance of local stakeholders to such impacts translates across spatial scales to shape the cost and design of the continent`s net-zero electricity system using a soft-linked modelling framework. We find that lower impact tolerance can reduce the role of onshore wind in Europe reaching net-zero by up to 84% relative to a future where wind enjoys higher acceptance, with other low carbon sources needing to be scaled up to compensate. This translates into total European electricity system costs increasing by between 2-14% while some countries see costs escalating by 20% or more. Our results show that the local acceptance of onshore wind is a key structural driver of the system and highlight the system value of policies to promote it.

Original language	English
Number of pages	79
DOIs	https://doi.org/10.48550/arXiv.2603.28279
Publication status	Published - 30 Mar 2026

UN SDGs

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

SDG 7 Affordable and Clean Energy

Keywords

Wind energy
Social and environmental impacts
Energy system transition
Energy systems modelling

Access to Document

10.48550/arXiv.2603.28279Licence: CC BY-NC-SA

2603.28279v1Submitted manuscript, 4.4 MBLicence: CC BY-NC-SA

Cite this

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title = "The electricity system value of the local acceptance of onshore wind in Europe",

abstract = "The large-scale deployment of wind power is central to Europe`s energy transition but faces challenges due to its social and environmental impacts on communities. Here we assess how the tolerance of local stakeholders to such impacts translates across spatial scales to shape the cost and design of the continent`s net-zero electricity system using a soft-linked modelling framework. We find that lower impact tolerance can reduce the role of onshore wind in Europe reaching net-zero by up to 84\% relative to a future where wind enjoys higher acceptance, with other low carbon sources needing to be scaled up to compensate. This translates into total European electricity system costs increasing by between 2-14\% while some countries see costs escalating by 20\% or more. Our results show that the local acceptance of onshore wind is a key structural driver of the system and highlight the system value of policies to promote it.",

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AU - Valenzuela-Venegas, Guillermo

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AU - Zeyringer, Marianne

AU - Bucha, Monika

AU - Chen, Ruihong

AU - Etard, Adrienne

AU - Hahmann, Andrea N.

AU - Lohrmann, Alena

AU - McKenna, Russell C.

AU - Mikovits, Christian

AU - Panos, Evangelos

AU - Zhang, Meixi

AU - Camargo, Luis Ramirez

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N2 - The large-scale deployment of wind power is central to Europe`s energy transition but faces challenges due to its social and environmental impacts on communities. Here we assess how the tolerance of local stakeholders to such impacts translates across spatial scales to shape the cost and design of the continent`s net-zero electricity system using a soft-linked modelling framework. We find that lower impact tolerance can reduce the role of onshore wind in Europe reaching net-zero by up to 84% relative to a future where wind enjoys higher acceptance, with other low carbon sources needing to be scaled up to compensate. This translates into total European electricity system costs increasing by between 2-14% while some countries see costs escalating by 20% or more. Our results show that the local acceptance of onshore wind is a key structural driver of the system and highlight the system value of policies to promote it.

AB - The large-scale deployment of wind power is central to Europe`s energy transition but faces challenges due to its social and environmental impacts on communities. Here we assess how the tolerance of local stakeholders to such impacts translates across spatial scales to shape the cost and design of the continent`s net-zero electricity system using a soft-linked modelling framework. We find that lower impact tolerance can reduce the role of onshore wind in Europe reaching net-zero by up to 84% relative to a future where wind enjoys higher acceptance, with other low carbon sources needing to be scaled up to compensate. This translates into total European electricity system costs increasing by between 2-14% while some countries see costs escalating by 20% or more. Our results show that the local acceptance of onshore wind is a key structural driver of the system and highlight the system value of policies to promote it.

KW - Wind energy

KW - Social and environmental impacts

KW - Energy system transition

KW - Energy systems modelling

U2 - 10.48550/arXiv.2603.28279

DO - 10.48550/arXiv.2603.28279

M3 - Preprint

BT - The electricity system value of the local acceptance of onshore wind in Europe

ER -

The electricity system value of the local acceptance of onshore wind in Europe

Abstract

UN SDGs

Keywords

Access to Document

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Cite this