Future projections of wind energy potentials in the arctic for the 21st century under the RCP8.5 scenario from regional climate models (Arctic-CORDEX)

The Arctic has warmed more than twice the rate of the entire globe. To quantify possible climate change effects, we calculate wind energy potentials from a multi-model ensemble of Arctic-CORDEX. For this, we analyze future changes of wind power density (WPD) using an eleven-member multi-model ensemb...

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Published in:Anthropocene
Main Authors: Akperov, Mirseid, Eliseev, Alexey V., Rinke, Annette, Mokhov, Igor I., Semenov, Vladimir A., Dembitskaya, Mariya, Matthes, Heidrun, Adakudlu, Muralidhar, Boberg, Fredrik, Christensen, Jens Hesselbjerg, Dethloff, Klaus, Fettweis, Xavier, Gutjahr, Oliver, Heinemann, Günther, Koenigk, Torben, Sein, Dmitry, Laprise, René, Mottram, Ruth, Nikiéma, Oumarou, Sobolowski, Stefan Pieter, Winger, Katja, Zhang, Wenxin
Format: Article in Journal/Newspaper
Language:English
Published: 2023
Subjects:
Klimamodeller
Climate models
Arktis
Arctic
VDP::Meteorologi: 453
VDP::Meteorology: 453
Canada
Arktis*
Climate change
Sea ice
Alaska
Siberia
Online Access:https://hdl.handle.net/11250/3125689
https://doi.org/10.1016/j.ancene.2023.100402
id ftnorce:oai:norceresearch.brage.unit.no:11250/3125689
record_format openpolar
spelling ftnorce:oai:norceresearch.brage.unit.no:11250/3125689 2024-05-12T07:58:04+00:00 Future projections of wind energy potentials in the arctic for the 21st century under the RCP8.5 scenario from regional climate models (Arctic-CORDEX) Akperov, Mirseid Eliseev, Alexey V. Rinke, Annette Mokhov, Igor I. Semenov, Vladimir A. Dembitskaya, Mariya Matthes, Heidrun Adakudlu, Muralidhar Boberg, Fredrik Christensen, Jens Hesselbjerg Dethloff, Klaus Fettweis, Xavier Gutjahr, Oliver Heinemann, Günther Koenigk, Torben Sein, Dmitry Laprise, René Mottram, Ruth Nikiéma, Oumarou Sobolowski, Stefan Pieter Winger, Katja Zhang, Wenxin 2023 application/pdf https://hdl.handle.net/11250/3125689 https://doi.org/10.1016/j.ancene.2023.100402 eng eng EC/H2020/101003590 Meteorologisk institutt: 181090 Anthropocene. 2023, 44 . urn:issn:2213-3054 https://hdl.handle.net/11250/3125689 https://doi.org/10.1016/j.ancene.2023.100402 cristin:2181916 Anthropocene 44 18 Klimamodeller Climate models Arktis Arctic VDP::Meteorologi: 453 VDP::Meteorology: 453 Peer reviewed Journal article 2023 ftnorce https://doi.org/10.1016/j.ancene.2023.100402 2024-04-15T16:56:23Z The Arctic has warmed more than twice the rate of the entire globe. To quantify possible climate change effects, we calculate wind energy potentials from a multi-model ensemble of Arctic-CORDEX. For this, we analyze future changes of wind power density (WPD) using an eleven-member multi-model ensemble. Impacts are estimated for two periods (2020–2049 and 2070–2099) of the 21st century under a high emission scenario (RCP8.5). The multi-model mean reveals an increase of seasonal WPD over the Arctic in the future decades. WPD variability across a range of temporal scales is projected to increase over the Arctic. The signal amplifies by the end of 21st century. Future changes in the frequency of wind speeds at 100 m not useable for wind energy production (wind speeds below 4 m/s or above 25 m/s) has been analyzed. The RCM ensemble simulates a more frequent occurrence of 100 m non-usable wind speeds for the wind-turbines over Scandinavia and selected land areas in Alaska, northern Russia and Canada. In contrast, non-usable wind speeds decrease over large parts of Eastern Siberia and in northern Alaska. Thus, our results indicate increased potential of the Arctic for the development and production of wind energy. Bias corrected and not corrected near-surface wind speed and WPD changes have been compared with each other. It has been found that both show the same sign of future change, but differ in magnitude of these changes. The role of sea-ice retreat and vegetation expansion in the Arctic in future on near-surface wind speed variability has been also assessed. Surface roughness through sea-ice and vegetation changes may significantly impact on WPD variability in the Arctic. Future projections of wind energy potentials in the arctic for the 21st century under the RCP8.5 scenario from regional climate models (Arctic-CORDEX) submittedVersion Article in Journal/Newspaper Arctic Arktis Arktis* Climate change Sea ice Alaska Siberia NORCE vitenarkiv (Norwegian Research Centre) Arctic Canada Anthropocene 44 100402
institution Open Polar
collection NORCE vitenarkiv (Norwegian Research Centre)
op_collection_id ftnorce
language English
topic Klimamodeller
Climate models
Arktis
Arctic
VDP::Meteorologi: 453
VDP::Meteorology: 453
spellingShingle Klimamodeller
Climate models
Arktis
Arctic
VDP::Meteorologi: 453
VDP::Meteorology: 453
Akperov, Mirseid
Eliseev, Alexey V.
Rinke, Annette
Mokhov, Igor I.
Semenov, Vladimir A.
Dembitskaya, Mariya
Matthes, Heidrun
Adakudlu, Muralidhar
Boberg, Fredrik
Christensen, Jens Hesselbjerg
Dethloff, Klaus
Fettweis, Xavier
Gutjahr, Oliver
Heinemann, Günther
Koenigk, Torben
Sein, Dmitry
Laprise, René
Mottram, Ruth
Nikiéma, Oumarou
Sobolowski, Stefan Pieter
Winger, Katja
Zhang, Wenxin
Future projections of wind energy potentials in the arctic for the 21st century under the RCP8.5 scenario from regional climate models (Arctic-CORDEX)
topic_facet Klimamodeller
Climate models
Arktis
Arctic
VDP::Meteorologi: 453
VDP::Meteorology: 453
description The Arctic has warmed more than twice the rate of the entire globe. To quantify possible climate change effects, we calculate wind energy potentials from a multi-model ensemble of Arctic-CORDEX. For this, we analyze future changes of wind power density (WPD) using an eleven-member multi-model ensemble. Impacts are estimated for two periods (2020–2049 and 2070–2099) of the 21st century under a high emission scenario (RCP8.5). The multi-model mean reveals an increase of seasonal WPD over the Arctic in the future decades. WPD variability across a range of temporal scales is projected to increase over the Arctic. The signal amplifies by the end of 21st century. Future changes in the frequency of wind speeds at 100 m not useable for wind energy production (wind speeds below 4 m/s or above 25 m/s) has been analyzed. The RCM ensemble simulates a more frequent occurrence of 100 m non-usable wind speeds for the wind-turbines over Scandinavia and selected land areas in Alaska, northern Russia and Canada. In contrast, non-usable wind speeds decrease over large parts of Eastern Siberia and in northern Alaska. Thus, our results indicate increased potential of the Arctic for the development and production of wind energy. Bias corrected and not corrected near-surface wind speed and WPD changes have been compared with each other. It has been found that both show the same sign of future change, but differ in magnitude of these changes. The role of sea-ice retreat and vegetation expansion in the Arctic in future on near-surface wind speed variability has been also assessed. Surface roughness through sea-ice and vegetation changes may significantly impact on WPD variability in the Arctic. Future projections of wind energy potentials in the arctic for the 21st century under the RCP8.5 scenario from regional climate models (Arctic-CORDEX) submittedVersion
format Article in Journal/Newspaper
author Akperov, Mirseid
Eliseev, Alexey V.
Rinke, Annette
Mokhov, Igor I.
Semenov, Vladimir A.
Dembitskaya, Mariya
Matthes, Heidrun
Adakudlu, Muralidhar
Boberg, Fredrik
Christensen, Jens Hesselbjerg
Dethloff, Klaus
Fettweis, Xavier
Gutjahr, Oliver
Heinemann, Günther
Koenigk, Torben
Sein, Dmitry
Laprise, René
Mottram, Ruth
Nikiéma, Oumarou
Sobolowski, Stefan Pieter
Winger, Katja
Zhang, Wenxin
author_facet Akperov, Mirseid
Eliseev, Alexey V.
Rinke, Annette
Mokhov, Igor I.
Semenov, Vladimir A.
Dembitskaya, Mariya
Matthes, Heidrun
Adakudlu, Muralidhar
Boberg, Fredrik
Christensen, Jens Hesselbjerg
Dethloff, Klaus
Fettweis, Xavier
Gutjahr, Oliver
Heinemann, Günther
Koenigk, Torben
Sein, Dmitry
Laprise, René
Mottram, Ruth
Nikiéma, Oumarou
Sobolowski, Stefan Pieter
Winger, Katja
Zhang, Wenxin
author_sort Akperov, Mirseid
title Future projections of wind energy potentials in the arctic for the 21st century under the RCP8.5 scenario from regional climate models (Arctic-CORDEX)
title_short Future projections of wind energy potentials in the arctic for the 21st century under the RCP8.5 scenario from regional climate models (Arctic-CORDEX)
title_full Future projections of wind energy potentials in the arctic for the 21st century under the RCP8.5 scenario from regional climate models (Arctic-CORDEX)
title_fullStr Future projections of wind energy potentials in the arctic for the 21st century under the RCP8.5 scenario from regional climate models (Arctic-CORDEX)
title_full_unstemmed Future projections of wind energy potentials in the arctic for the 21st century under the RCP8.5 scenario from regional climate models (Arctic-CORDEX)
title_sort future projections of wind energy potentials in the arctic for the 21st century under the rcp8.5 scenario from regional climate models (arctic-cordex)
publishDate 2023
url https://hdl.handle.net/11250/3125689
https://doi.org/10.1016/j.ancene.2023.100402
geographic Arctic
Canada
geographic_facet Arctic
Canada
genre Arctic
Arktis
Arktis*
Climate change
Sea ice
Alaska
Siberia
genre_facet Arctic
Arktis
Arktis*
Climate change
Sea ice
Alaska
Siberia
op_source Anthropocene
44
18
op_relation EC/H2020/101003590
Meteorologisk institutt: 181090
Anthropocene. 2023, 44 .
urn:issn:2213-3054
https://hdl.handle.net/11250/3125689
https://doi.org/10.1016/j.ancene.2023.100402
cristin:2181916
op_doi https://doi.org/10.1016/j.ancene.2023.100402
container_title Anthropocene
container_volume 44
container_start_page 100402
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