How much wind power potential does europe have? Examining european wind power potential with an enhanced socio-technical atlas

P. Enevoldsen; Finn Hendrik Permien; Ines Bakhtaoui; Anna Katharina von Krauland; Mark Z. Jacobson; George Xydis; Benjamin K. Sovacool; Scott V. Valentine; Daniel Luecht; Gregory Oxley

doi:10.1016/j.enpol.2019.06.064

How much wind power potential does europe have? Examining european wind power potential with an enhanced socio-technical atlas

P. Enevoldsen, Finn Hendrik Permien, Ines Bakhtaoui, Anna Katharina von Krauland, Mark Z. Jacobson, George Xydis, Benjamin K. Sovacool, Scott V. Valentine, Daniel Luecht, Gregory Oxley

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

65 Citations (Scopus)

Abstract

The continuous development of onshore wind farms is an important feature of the European transition towards an energy system powered by distributed renewables and low-carbon resources. This study assesses and simulates potential for future onshore wind turbine installations throughout Europe. The study depicts, via maps, all the national and regional socio-technical restrictions and regulations for wind project development using spatial analysis conducted through GIS. The inputs for the analyses were based on an original dataset compiled from satellites and public databases relating to electricity, planning, and other dimensions. Taking into consideration socio-technical constraints, which restricts 54% of the combined land area in Europe, the study reveals a nameplate capacity of 52.5 TW of untapped onshore wind power potential in Europe - equivalent to 1 MW per 16 European citizens – a supply that would be sufficient to cover the global all-sector energy demand from now through to 2050. The study offers a more rigorous, multi-dimensional, and granular atlas of onshore wind energy development that can assist with future energy policy, research, and planning.

Original language	English
Pages (from-to)	1092-1100
Number of pages	9
Journal	Energy Policy
Volume	132
DOIs	https://doi.org/10.1016/j.enpol.2019.06.064
Publication status	Published - Sept 2019
Externally published	Yes

All Science Journal Classification (ASJC) codes

Energy(all)
Management, Monitoring, Policy and Law

UN SDGs

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

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10.1016/j.enpol.2019.06.064

Cite this

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title = "How much wind power potential does europe have? Examining european wind power potential with an enhanced socio-technical atlas",

abstract = "The continuous development of onshore wind farms is an important feature of the European transition towards an energy system powered by distributed renewables and low-carbon resources. This study assesses and simulates potential for future onshore wind turbine installations throughout Europe. The study depicts, via maps, all the national and regional socio-technical restrictions and regulations for wind project development using spatial analysis conducted through GIS. The inputs for the analyses were based on an original dataset compiled from satellites and public databases relating to electricity, planning, and other dimensions. Taking into consideration socio-technical constraints, which restricts 54% of the combined land area in Europe, the study reveals a nameplate capacity of 52.5 TW of untapped onshore wind power potential in Europe - equivalent to 1 MW per 16 European citizens – a supply that would be sufficient to cover the global all-sector energy demand from now through to 2050. The study offers a more rigorous, multi-dimensional, and granular atlas of onshore wind energy development that can assist with future energy policy, research, and planning.",

author = "P. Enevoldsen and Permien, {Finn Hendrik} and Ines Bakhtaoui and Krauland, {Anna Katharina von} and Jacobson, {Mark Z.} and George Xydis and Sovacool, {Benjamin K.} and Valentine, {Scott V.} and Daniel Luecht and Gregory Oxley",

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doi = "10.1016/j.enpol.2019.06.064",

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volume = "132",

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AU - Enevoldsen, P.

AU - Permien, Finn Hendrik

AU - Bakhtaoui, Ines

AU - Krauland, Anna Katharina von

AU - Jacobson, Mark Z.

AU - Xydis, George

AU - Sovacool, Benjamin K.

AU - Valentine, Scott V.

AU - Luecht, Daniel

AU - Oxley, Gregory

PY - 2019/9

Y1 - 2019/9

N2 - The continuous development of onshore wind farms is an important feature of the European transition towards an energy system powered by distributed renewables and low-carbon resources. This study assesses and simulates potential for future onshore wind turbine installations throughout Europe. The study depicts, via maps, all the national and regional socio-technical restrictions and regulations for wind project development using spatial analysis conducted through GIS. The inputs for the analyses were based on an original dataset compiled from satellites and public databases relating to electricity, planning, and other dimensions. Taking into consideration socio-technical constraints, which restricts 54% of the combined land area in Europe, the study reveals a nameplate capacity of 52.5 TW of untapped onshore wind power potential in Europe - equivalent to 1 MW per 16 European citizens – a supply that would be sufficient to cover the global all-sector energy demand from now through to 2050. The study offers a more rigorous, multi-dimensional, and granular atlas of onshore wind energy development that can assist with future energy policy, research, and planning.

AB - The continuous development of onshore wind farms is an important feature of the European transition towards an energy system powered by distributed renewables and low-carbon resources. This study assesses and simulates potential for future onshore wind turbine installations throughout Europe. The study depicts, via maps, all the national and regional socio-technical restrictions and regulations for wind project development using spatial analysis conducted through GIS. The inputs for the analyses were based on an original dataset compiled from satellites and public databases relating to electricity, planning, and other dimensions. Taking into consideration socio-technical constraints, which restricts 54% of the combined land area in Europe, the study reveals a nameplate capacity of 52.5 TW of untapped onshore wind power potential in Europe - equivalent to 1 MW per 16 European citizens – a supply that would be sufficient to cover the global all-sector energy demand from now through to 2050. The study offers a more rigorous, multi-dimensional, and granular atlas of onshore wind energy development that can assist with future energy policy, research, and planning.

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JO - Energy Policy

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How much wind power potential does europe have? Examining european wind power potential with an enhanced socio-technical atlas

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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