洋上風況観測のためのドップラーライダー用動揺吸収台とその制御手法の提案

It is necessary to obtain actual wind state at the sea area where offshore wind farm will be constructed to realize its profitability and safety. Our research group has been investigating methods to reduce motion of floating platform caused by wave, wind, current for offshore wind observations by Do...

Full description

Saved in:
Bibliographic Details
Published in日本船舶海洋工学会論文集 Vol. 36; pp. 31 - 39
Main Authors 片山, 徹, 山本, 裕介, 絹笠, 瑞基, 森田, 万葉
Format Journal Article
LanguageJapanese
Published 公益社団法人 日本船舶海洋工学会 2022
Online AccessGet full text
ISSN1880-3717
1881-1760
DOI10.2534/jjasnaoe.36.31

Cover

Abstract It is necessary to obtain actual wind state at the sea area where offshore wind farm will be constructed to realize its profitability and safety. Our research group has been investigating methods to reduce motion of floating platform caused by wave, wind, current for offshore wind observations by Doppler Lidar, and has proposed a spar-buoy with ring-fin motion stabilizer. However, the spar-buoy is not small, therefore it requires high installation cost. As another method, in this study, a controlled rigid body swing as a motion stabilized platform to place on floating structure is investigated numerically. First, a single pendulum type motion stabilized platform on a spar-buoy type floating plat form with a tension-moored is proposed, and its motion mechanism is clarified. Based on the results, a counter-weight type motion stabilized platform is proposed, which is an improvement of the single pendulum type, and the effectiveness in reducing motion is confirmed. Furthermore, the counter-weight type motion stabilized platform is adjusted so that it has no restoring moment, and further motion reduction is confirmed by using skyhook spring. Finally, it is confirmed that the motion reduction effects are also sufficient when the motion stabilized platform is mounted on a discus-type floating platform.
AbstractList It is necessary to obtain actual wind state at the sea area where offshore wind farm will be constructed to realize its profitability and safety. Our research group has been investigating methods to reduce motion of floating platform caused by wave, wind, current for offshore wind observations by Doppler Lidar, and has proposed a spar-buoy with ring-fin motion stabilizer. However, the spar-buoy is not small, therefore it requires high installation cost. As another method, in this study, a controlled rigid body swing as a motion stabilized platform to place on floating structure is investigated numerically. First, a single pendulum type motion stabilized platform on a spar-buoy type floating plat form with a tension-moored is proposed, and its motion mechanism is clarified. Based on the results, a counter-weight type motion stabilized platform is proposed, which is an improvement of the single pendulum type, and the effectiveness in reducing motion is confirmed. Furthermore, the counter-weight type motion stabilized platform is adjusted so that it has no restoring moment, and further motion reduction is confirmed by using skyhook spring. Finally, it is confirmed that the motion reduction effects are also sufficient when the motion stabilized platform is mounted on a discus-type floating platform.
Author 森田, 万葉
片山, 徹
山本, 裕介
絹笠, 瑞基
Author_xml – sequence: 1
  fullname: 片山, 徹
  organization: 大阪公立大学 大学院 工学研究科
– sequence: 1
  fullname: 山本, 裕介
  organization: 大阪府立大学 大学院 工学研究科
– sequence: 1
  fullname: 絹笠, 瑞基
  organization: 大阪府立大学 大学院 工学研究科
– sequence: 1
  fullname: 森田, 万葉
  organization: 大阪公立大学 大学院 工学研究科
BookMark eNo9kMtKw0AYhQepYFvd-hapc03SZSneoOBG12E6mWiDtpJ04840m9aC6cLiSqQiUkFEqEgR8WXGjPoWpt4253yHw_kXfwHkmq2mBGAZwRJmhK74Pg-bvCVLxCwRNAfyyLaRgSwT5r4ZGsRC1gIohKEPIc1KOw8a-rH_Nj35vBrrSfRxM9HTOxXdq-hSdaIZxD0Vxyo-V_Gtil9m2rlW8XHG72fjtD_UyXM6mKbJaZo8qGisootslXaf0teR7vX1ZJhFnQz0qLsI5j2-H8qlXy-CnbXV7eqGUdta36xWaoaPGSwbdeLaHLpUmAJiZnmYIyQQczGjzEWijj2TUclczy5zgQiSdZtTKbBFXVYmHiVFUPm564dtviudw6BxwIMjhwfthtiXzt-bHGI6cCYE_XdijweOz8kXZXKLlA
ContentType Journal Article
Copyright 2022 社団法人 日本船舶海洋工学会
Copyright_xml – notice: 2022 社団法人 日本船舶海洋工学会
DOI 10.2534/jjasnaoe.36.31
DatabaseTitleList
DeliveryMethod fulltext_linktorsrc
Discipline Military & Naval Science
EISSN 1881-1760
EndPage 39
ExternalDocumentID article_jjasnaoe_36_0_36_31_article_char_ja
GroupedDBID 2WC
ABJNI
ACGFS
ALMA_UNASSIGNED_HOLDINGS
JSF
KQ8
OK1
RJT
ID FETCH-LOGICAL-j2509-b3d8a0d4c6c0257f2a11c15d2545d1cb2f654e5df89ac131eb8a4ec274d593f43
ISSN 1880-3717
IngestDate Wed Sep 03 06:31:13 EDT 2025
IsDoiOpenAccess true
IsOpenAccess true
IsPeerReviewed false
IsScholarly true
Language Japanese
LinkModel OpenURL
MergedId FETCHMERGED-LOGICAL-j2509-b3d8a0d4c6c0257f2a11c15d2545d1cb2f654e5df89ac131eb8a4ec274d593f43
OpenAccessLink https://www.jstage.jst.go.jp/article/jjasnaoe/36/0/36_31/_article/-char/ja
PageCount 9
ParticipantIDs jstage_primary_article_jjasnaoe_36_0_36_31_article_char_ja
PublicationCentury 2000
PublicationDate 20220000
PublicationDateYYYYMMDD 2022-01-01
PublicationDate_xml – year: 2022
  text: 20220000
PublicationDecade 2020
PublicationTitle 日本船舶海洋工学会論文集
PublicationTitleAlternate 日本船舶海洋工学会論文集
PublicationYear 2022
Publisher 公益社団法人 日本船舶海洋工学会
Publisher_xml – name: 公益社団法人 日本船舶海洋工学会
References 2) Y. Yamamoto, T. Katayama, T. Morimoto, T. Taniguchi, H. Hashimoto, M. Goto: Mechanism of Inclination of Spar-Buoy with Ring-Fin Motion Stabilizer in Shallow Sea Caused by Tidal Currents and Waves and Avoidance of the Inclination, Journal of the Japan Society of Naval Architects and Ocean Engineers, Vol.33 pp.231-246, 2021(in Japanese).
5) D. Karnopp, M. J. Crosby, R. A. Harwood: Vibration Control Using Semi-Active Force Generators, Journal of Manufacturing Science and Engineering, pp.619-626, Vol.96(2), 1974.
山本裕介,片山徹,森本大嗣,谷口友基,橋本博公,後藤正洋:浅海域用姿勢安定装置付きスパーブイの潮流および波中定傾斜発生のメカニズムとその改善方法,日本船舶海洋工学会論文集,第33 号,pp.231-246,2021
4) R. Kato, T. Ohsawa, H. Aso, E. Kobayashi, M. Inoue, R. Kodama, K. Ohnishi, K. Uehara, T. Maruo: Dynamic Behavior and Measurement Accuracy of the Offshore Wind Observation System “BuoyLidar”, Annual Autumn Meeting of JASNAOE 2021 Proceedings, pp.541-545, 2021(in Japanese).
加藤稜一朗,大澤輝夫,麻生裕司,小林英一,井上実,小玉亮,大西健二,上原健太郎,圓尾太郎:洋上風況観測システム「BuoyLidar」の動揺特性と風況観測精度,日本船舶海洋工学会講演論文集,第33 号,pp. 541-545,2021
大西健二,上原健太郎,井上実:浮体式ドップラーライダーによる洋上風況計測技術,電気学会誌,Vol.141, No.11, pp.690-693, 2021.
1) T. Katayama, K. Hashimoto, H. Asou, S. Komori: Development of a motion stabilizer for a Shallow Sea Area Spar Buoy in Wind, Tidal Current and Waves, Journal of Ocean and Wind Energy, The International Society of Offshore and Polar Engineers, Vol.2, No.3, pp.182-192, 2015.
3) K. Ohnishi, K. Uehara, M. Inoue: Offshore Wind Observation Technology by Floating Doppler Lidar, 2021 The Journal of The Institute of Electrical Engineers of Japan, Vol.141, No.11, pp.690-693, 2021(in Japanese).
References_xml – reference: 2) Y. Yamamoto, T. Katayama, T. Morimoto, T. Taniguchi, H. Hashimoto, M. Goto: Mechanism of Inclination of Spar-Buoy with Ring-Fin Motion Stabilizer in Shallow Sea Caused by Tidal Currents and Waves and Avoidance of the Inclination, Journal of the Japan Society of Naval Architects and Ocean Engineers, Vol.33 pp.231-246, 2021(in Japanese).
– reference: 5) D. Karnopp, M. J. Crosby, R. A. Harwood: Vibration Control Using Semi-Active Force Generators, Journal of Manufacturing Science and Engineering, pp.619-626, Vol.96(2), 1974.
– reference: 1) T. Katayama, K. Hashimoto, H. Asou, S. Komori: Development of a motion stabilizer for a Shallow Sea Area Spar Buoy in Wind, Tidal Current and Waves, Journal of Ocean and Wind Energy, The International Society of Offshore and Polar Engineers, Vol.2, No.3, pp.182-192, 2015.
– reference: 大西健二,上原健太郎,井上実:浮体式ドップラーライダーによる洋上風況計測技術,電気学会誌,Vol.141, No.11, pp.690-693, 2021.
– reference: 山本裕介,片山徹,森本大嗣,谷口友基,橋本博公,後藤正洋:浅海域用姿勢安定装置付きスパーブイの潮流および波中定傾斜発生のメカニズムとその改善方法,日本船舶海洋工学会論文集,第33 号,pp.231-246,2021.
– reference: 3) K. Ohnishi, K. Uehara, M. Inoue: Offshore Wind Observation Technology by Floating Doppler Lidar, 2021 The Journal of The Institute of Electrical Engineers of Japan, Vol.141, No.11, pp.690-693, 2021(in Japanese).
– reference: 4) R. Kato, T. Ohsawa, H. Aso, E. Kobayashi, M. Inoue, R. Kodama, K. Ohnishi, K. Uehara, T. Maruo: Dynamic Behavior and Measurement Accuracy of the Offshore Wind Observation System “BuoyLidar”, Annual Autumn Meeting of JASNAOE 2021 Proceedings, pp.541-545, 2021(in Japanese).
– reference: 加藤稜一朗,大澤輝夫,麻生裕司,小林英一,井上実,小玉亮,大西健二,上原健太郎,圓尾太郎:洋上風況観測システム「BuoyLidar」の動揺特性と風況観測精度,日本船舶海洋工学会講演論文集,第33 号,pp. 541-545,2021.
SSID ssj0048818
ssib025353319
ssib031741110
ssib023160803
ssib000936973
ssib020472916
ssib002484520
Score 2.2938056
Snippet It is necessary to obtain actual wind state at the sea area where offshore wind farm will be constructed to realize its profitability and safety. Our research...
SourceID jstage
SourceType Publisher
StartPage 31
Title 洋上風況観測のためのドップラーライダー用動揺吸収台とその制御手法の提案
URI https://www.jstage.jst.go.jp/article/jjasnaoe/36/0/36_31/_article/-char/ja
Volume 36
hasFullText 1
inHoldings 1
isFullTextHit
isPrint
ispartofPNX 日本船舶海洋工学会論文集, 2022, Vol.36, pp.31-39
journalDatabaseRights – providerCode: PRVAFT
  databaseName: Open Access Digital Library
  customDbUrl:
  eissn: 1881-1760
  dateEnd: 99991231
  omitProxy: true
  ssIdentifier: ssj0048818
  issn: 1880-3717
  databaseCode: KQ8
  dateStart: 20050101
  isFulltext: true
  titleUrlDefault: http://grweb.coalliance.org/oadl/oadl.html
  providerName: Colorado Alliance of Research Libraries
link http://utb.summon.serialssolutions.com/2.0.0/link/0/eLvHCXMwrR1Na9RANJR68SJ-Uj_Zg-NFds1kJsmMt8k2SxFaEFrobcnXgntopbYHPbndS2uh24PFk0hFpIKIUJEi4p-JG_Vf-N4k2U3Fg1UhDC8zb95nsu-9bGZiGNclhHUzhkpVulZc525s1QPWYXWHBZA8y8jsxLhQeHbOmVngdxbtxYnJ7cpbS2urYSN69Nt1JX_jVegDv-Iq2WN4dkQUOgAG_0ILHob2j3xMfId4kAx6xOfEE0Qo4kuiLKKEHmKQJxJfEKVh7AG4SXzdr_wCkC0NWBq5OgSHLAFWANItAFUOec2jPcCdl7PMCo5LJNeC2SiwtFEe0SKewh5pomw41CLCLwDPLOURpajTFQkBRxDPQcDziaKaoNTW0PoiixGy5gVcAADM_Bt_ZVKOnaCX0iLJpjaR0MRlCTiaJjByKzbXpzjLJmoajYxeaBKptM1BRz0LWuGiX6RHxOg5KNoDhXU1GYoHXOyFLp4co5WjI9E0GtDPFQSOQNarkkUxJQKArMwcH4wP1tNGk2jzMb6DlNBC2j9egZ9fTi4ygon555fKh0PW-CGCdoKtDeZq_ZTmy1EJZOUh8bE3OHrbUzf_u8EroRUiBYSzfKVuIyn7KG5RalbjMasG1CJFyFOzfNurX4O-ZTOOQb8bPFgKlpMGcxrlrCMbqRe3abtEbDOnbWLDaLscw6WO7S7UWycsFzJXfMnjbqVcwa9futX0VnB7XG5ZuPNqpdyC0skxxfgtBxAUiqvx9omQunOq0-88c4RYqv-PGFkq32QW9bt1VDtIl7tQPJYvnupceP60caooYmsqV-eMMdENzhpTs3rD_5WHtRu1uQB-5mpF3nDOuJd92Pp6-OTHy_3soPf99UF2-DbtvUt7L9L1HgL9zbTfT_vP0v6btP8Z2_VXaf8xwN-e7g-3drPBp-HO4XCwPRy8T3v7ae85zBpufBx-2cs2t7KDXTjNBjvZ3sZ5Y6Hlzzdn6sU3XupdKL5kPWSxCMyYR04E9nE7VkBpRO3YgsouplFodRybJ3bcETKIKKNJKAKeRJbLY1uyDmcXjMml5aVkyqhZIY2FKSPKBeUdFoYODR1pQ44eBjaTyUXjdm609v18I5_2Ma6IS_8y-bJxEm_O_MntFWNydWUtuQq1zGp4TV9gPwHEZwvk
linkProvider Colorado Alliance of Research Libraries
openUrl ctx_ver=Z39.88-2004&ctx_enc=info%3Aofi%2Fenc%3AUTF-8&rfr_id=info%3Asid%2Fsummon.serialssolutions.com&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&rft.genre=article&rft.atitle=%E6%B4%8B%E4%B8%8A%E9%A2%A8%E6%B3%81%E8%A6%B3%E6%B8%AC%E3%81%AE%E3%81%9F%E3%82%81%E3%81%AE%E3%83%89%E3%83%83%E3%83%97%E3%83%A9%E3%83%BC%E3%83%A9%E3%82%A4%E3%83%80%E3%83%BC%E7%94%A8%E5%8B%95%E6%8F%BA%E5%90%B8%E5%8F%8E%E5%8F%B0%E3%81%A8%E3%81%9D%E3%81%AE%E5%88%B6%E5%BE%A1%E6%89%8B%E6%B3%95%E3%81%AE%E6%8F%90%E6%A1%88&rft.jtitle=%E6%97%A5%E6%9C%AC%E8%88%B9%E8%88%B6%E6%B5%B7%E6%B4%8B%E5%B7%A5%E5%AD%A6%E4%BC%9A%E8%AB%96%E6%96%87%E9%9B%86&rft.au=%E7%89%87%E5%B1%B1%2C+%E5%BE%B9&rft.au=%E5%B1%B1%E6%9C%AC%2C+%E8%A3%95%E4%BB%8B&rft.au=%E7%B5%B9%E7%AC%A0%2C+%E7%91%9E%E5%9F%BA&rft.au=%E6%A3%AE%E7%94%B0%2C+%E4%B8%87%E8%91%89&rft.date=2022&rft.pub=%E5%85%AC%E7%9B%8A%E7%A4%BE%E5%9B%A3%E6%B3%95%E4%BA%BA+%E6%97%A5%E6%9C%AC%E8%88%B9%E8%88%B6%E6%B5%B7%E6%B4%8B%E5%B7%A5%E5%AD%A6%E4%BC%9A&rft.issn=1880-3717&rft.eissn=1881-1760&rft.volume=36&rft.spage=31&rft.epage=39&rft_id=info:doi/10.2534%2Fjjasnaoe.36.31&rft.externalDocID=article_jjasnaoe_36_0_36_31_article_char_ja
thumbnail_l http://covers-cdn.summon.serialssolutions.com/index.aspx?isbn=/lc.gif&issn=1880-3717&client=summon
thumbnail_m http://covers-cdn.summon.serialssolutions.com/index.aspx?isbn=/mc.gif&issn=1880-3717&client=summon
thumbnail_s http://covers-cdn.summon.serialssolutions.com/index.aspx?isbn=/sc.gif&issn=1880-3717&client=summon