Wind: generating power and cooling the power lines

Kaasik, Marko; Mirme, Sander

doi:https://doi.org/10.5194/asr-17-105-2020

Articles | Volume 17

https://doi.org/10.5194/asr-17-105-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/asr-17-105-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 17

22 Jun 2020

| 22 Jun 2020

Wind: generating power and cooling the power lines

Marko Kaasik and Sander Mirme

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Total article views: 1,917 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
1,625	253	39	1,917	46	43

HTML: 1,625
PDF: 253
XML: 39
Total: 1,917
BibTeX: 46
EndNote: 43

Views and downloads (calculated since 22 Jun 2020)

Month	HTML	PDF	XML	Total
Jun 2020	16	8	0	24
Jul 2020	55	25	13	93
Aug 2020	29	6	2	37
Sep 2020	104	2	0	106
Oct 2020	106	8	1	115
Nov 2020	116	3	0	119
Dec 2020	163	8	0	171
Jan 2021	180	5	0	185
Feb 2021	173	2	1	176
Mar 2021	192	6	0	198
Apr 2021	140	3	0	143
May 2021	17	4	2	23
Jun 2021	7	1	0	8
Jul 2021	6	4	0	10
Aug 2021	9	5	0	14
Sep 2021	4	5	0	9
Oct 2021	2	23	0	25
Nov 2021	13	19	1	33
Dec 2021	16	2	1	19
Jan 2022	12	7	2	21
Feb 2022	7	3	1	11
Mar 2022	5	5	0	10
Apr 2022	6	1	0	7
May 2022	7	6	1	14
Jun 2022	3	2	1	6
Jul 2022	7	1	0	8
Aug 2022	7	2	0	9
Sep 2022	6	3	0	9
Oct 2022	8	2	1	11
Nov 2022	6	4	1	11
Dec 2022	9	9	1	19
Jan 2023	9	3	0	12
Feb 2023	17	1	0	18
Mar 2023	11	7	0	18
Apr 2023	7	6	0	13
May 2023	7	3	0	10
Jun 2023	6	8	2	16
Jul 2023	5	2	0	7
Aug 2023	7	4	2	13
Sep 2023	5	3	0	8
Oct 2023	2	1	3
Nov 2023	5	1	0	6
Dec 2023	8	2	0	10
Jan 2024	5	3	0	8
Feb 2024	2	3	0	5
Mar 2024	4	5	0	9
Apr 2024	11	6	2	19
May 2024	5	4	1	10
Jun 2024	74	7	2	83
Jul 2024	4	1	0	5

Cumulative views and downloads (calculated since 22 Jun 2020)

Month	HTML	PDF	XML	Total
Jun 2020	16	8	0	24
Jul 2020	55	25	13	93
Aug 2020	29	6	2	37
Sep 2020	104	2	0	106
Oct 2020	106	8	1	115
Nov 2020	116	3	0	119
Dec 2020	163	8	0	171
Jan 2021	180	5	0	185
Feb 2021	173	2	1	176
Mar 2021	192	6	0	198
Apr 2021	140	3	0	143
May 2021	17	4	2	23
Jun 2021	7	1	0	8
Jul 2021	6	4	0	10
Aug 2021	9	5	0	14
Sep 2021	4	5	0	9
Oct 2021	2	23	0	25
Nov 2021	13	19	1	33
Dec 2021	16	2	1	19
Jan 2022	12	7	2	21
Feb 2022	7	3	1	11
Mar 2022	5	5	0	10
Apr 2022	6	1	0	7
May 2022	7	6	1	14
Jun 2022	3	2	1	6
Jul 2022	7	1	0	8
Aug 2022	7	2	0	9
Sep 2022	6	3	0	9
Oct 2022	8	2	1	11
Nov 2022	6	4	1	11
Dec 2022	9	9	1	19
Jan 2023	9	3	0	12
Feb 2023	17	1	0	18
Mar 2023	11	7	0	18
Apr 2023	7	6	0	13
May 2023	7	3	0	10
Jun 2023	6	8	2	16
Jul 2023	5	2	0	7
Aug 2023	7	4	2	13
Sep 2023	5	3	0	8
Oct 2023	2	1	3
Nov 2023	5	1	0	6
Dec 2023	8	2	0	10
Jan 2024	5	3	0	8
Feb 2024	2	3	0	5
Mar 2024	4	5	0	9
Apr 2024	11	6	2	19
May 2024	5	4	1	10
Jun 2024	74	7	2	83
Jul 2024	4	1	0	5

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Total article views: 1,652 (including HTML, PDF, and XML) Thereof 1,648 with geography defined and 4 with unknown origin.

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Latest update: 02 Jul 2024

Short summary

In the case of coastal wind farms, the wind that produces power simultaneously contributes to the cooling of high-voltage overhead conductors. Ideally this would allow for increased power transmission or decreased dimensions and cost of the conductor wires. In this study we investigate how well the wind speed in coastal wind farms is correlated with wind along a 75 km long 330 kW power line towards inland.


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Wind: generating power and cooling the power lines

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