전응력과 접수효과를 고려한 고정식 해상풍력발전 하부구조물의 동적응답특성 비교 연구

@article{ART002629236},
author={ 이강수 and 박병재 and 김현석 },
title={전응력과 접수효과를 고려한 고정식 해상풍력발전 하부구조물의 동적응답특성 비교 연구},
journal={풍력에너지저널},
issn={2093-5099},
year={2020},
volume={11},
number={3},
pages={13-22},
doi={10.33519/kwea.2020.11.3.002},
url={http://dx.doi.org/10.33519/kwea.2020.11.3.002}

TY - JOUR
AU - 이강수
AU - 박병재
AU - 김현석
TI - 전응력과 접수효과를 고려한 고정식 해상풍력발전 하부구조물의 동적응답특성 비교 연구
T2 - 풍력에너지저널
PY - 2020
VL - 11
IS - 3
PB - 한국풍력에너지학회
SP - 13-22
SN - 2093-5099
AB - Offshore wind turbine platforms have been used as fixed steel structures in oil exploration and extraction on continental shelves as well as jacket type substructures for new renewable energy. The fixed offshore substructure can be divided into monopile, jacket, and hybrid types according to the support structure shape. It is known that the frequency response of these substructure has different modal frequencies and shapes. Using the commercial FEA program ANSYS, a stress matrix considering a load and added mass of the substructure was superposed on the stiffness matrix of the structure. A series of harmonic response analyses considering added mass and prestress were carried out to investigate the structural responses of each type of substructure, which were obtained from modal analysis data. In this study, we proposed a structural dynamic analysis procedure for a fixed offshore substructure with added mass and prestress. Furthermore, recommended harmonic analysis is suggested while considering directional response.
KW - 해상풍력터빈, 고정식 하부구조물, 동적응답특성, 전응력효과, 접수효과
DO - 10.33519/kwea.2020.11.3.002
UR - http://dx.doi.org/10.33519/kwea.2020.11.3.002
ER -

이강수 , 박병재 and 김현석 (2020). 전응력과 접수효과를 고려한 고정식 해상풍력발전 하부구조물의 동적응답특성 비교 연구. 풍력에너지저널, 11( 3), 13- 22.

이강수 , 박병재 and 김현석 . 2020, “전응력과 접수효과를 고려한 고정식 해상풍력발전 하부구조물의 동적응답특성 비교 연구”, 풍력에너지저널, vol. 11, no. 3, pp. 13-22. Available from: doi:10.33519/kwea.2020.11.3.002

이강수 박병재 et al. 김현석 “전응력과 접수효과를 고려한 고정식 해상풍력발전 하부구조물의 동적응답특성 비교 연구” 풍력에너지저널 11.3 pp. 13-22 (2020): 13.

이강수 , 박병재 , 김현석 . 전응력과 접수효과를 고려한 고정식 해상풍력발전 하부구조물의 동적응답특성 비교 연구 풍력에너지저널 [Internet]. 2020; 11( 3), : 13-22. Available from: doi:10.33519/kwea.2020.11.3.002

이강수 , 박병재 and 김현석 . “전응력과 접수효과를 고려한 고정식 해상풍력발전 하부구조물의 동적응답특성 비교 연구” 풍력에너지저널 11, no.3 (2020): 13-22. doi: 10.33519/kwea.2020.11.3.002

홈 권호 목록 논문 목록 논문 상세

전응력과 접수효과를 고려한 고정식 해상풍력발전 하부구조물의 동적응답특성 비교 연구

풍력에너지저널

약어 : -

2020, vol.11, no.3, pp.13 - 22

DOI : 10.33519/kwea.2020.11.3.002

발행기관 : 한국풍력에너지학회

연구분야 : 기타공학

이강수¹ , 박병재² , 김현석³

¹한국해양과학기술원 부설 선박해양플랜트연구소

²한국해양과학기술원 선박해양플랜트연구소

³한국해양과학기술원 부설 선박해양플랜트연구소

인용한 논문 수 : - 서지 간략 보기

초록

Offshore wind turbine platforms have been used as fixed steel structures in oil exploration and extraction on continental shelves as well as jacket type substructures for new renewable energy. The fixed offshore substructure can be divided into monopile, jacket, and hybrid types according to the support structure shape. It is known that the frequency response of these substructure has different modal frequencies and shapes. Using the commercial FEA program ANSYS, a stress matrix considering a load and added mass of the substructure was superposed on the stiffness matrix of the structure. A series of harmonic response analyses considering added mass and prestress were carried out to investigate the structural responses of each type of substructure, which were obtained from modal analysis data. In this study, we proposed a structural dynamic analysis procedure for a fixed offshore substructure with added mass and prestress. Furthermore, recommended harmonic analysis is suggested while considering directional response.

키워드

해상풍력터빈, 고정식 하부구조물, 동적응답특성, 전응력효과, 접수효과

참고문헌(15)

[학술지] T. Mazuch / 1996 / Natural mode and frequencies of a thin clamped-free steel cylindrical storage tank partially filled with water / Journal of Sound and Vibration 193 (3) : 669 ~ 690
[학술지] S. Bartlett / An added mass theory for the base plate in a partially filled rectangular tank for use with fea / Journal of Sound and Vibration 246 (2) : 211 ~ 223
[학술지] M. Saiidi / 1994 / Prestress force effect on vibration frequency of concrete bridges / Journal of Structural Engineering 120 (1) : 2233 ~ 2241
[학술지] Nabil. / 1996 / Dynamic characteristics of post-tensioned girders with web openings / Journal Structural Engineering 122 (1) : 643 ~ 650
[학술지] Lalu Mangal / 2001 / Structural monitoring of offshore platforms using impulse and relaxation response / Journal of Ocean Engineering 28 (6) : 689 ~ 705
[학술지] M. Amabili / 1996 / Effect of finite fluid depth on the hydroelastic vibration circular and annular plates / Journal of Sound and Vibration 193 (4) : 909 ~ 925
[학술지] 김호선 / 2019 / 조건부 평균 스펙트럼을 적용한 해상풍력 자켓 지지구조물 내진해석 / 풍력에너지저널 10 (1) : 36 ~ 47
[학술지] 이계희 / 2019 / 지지구조물형식에 따른 해상풍력 발전기의 내진응답비교 / 풍력에너지저널 10 (1) : 5 ~ 13
[학술지] 이강수 / 2007 / 해상 풍력 발전용 Tubular와 Jacket Type Tower의 진동 특성에 관한 연구 / 한국전산구조공학회논문집 20 (5) : 615 ~ 622
[단행본] Son C. Y. / 1995 / Offshore Structural Engineering / MIRINAE, Ltd. : 231 ~ 290
[학술지] 이기남 / 2019 / 해양환경의 변동성을 고려한 해상풍력터빈 지지구조물의 기대수명 평가 / 한국해양공학회지 33 (5) : 435 ~ 446
[학술지] 박세완 / 2018 / 부유식 파력-해상풍력 복합발전 플랫폼의 운동저감장치 개념설계 / 한국해양공학회지 32 (1) : 9 ~ 20
[보고서] American Petroleum Institute / 2012 / Planning, Designing and Constructing Fixed Offshore Platforms - Working Stress Design, Twenty -
[학술대회] Djillali Amar-Bouzid / 2016 / Monopile Head Stiffness and Natural Frequency Assessment of Some Installed OWTs using a Pseudo 3D Nonlinear FE Model / ASEM conference : 1
[기타] ANSYS. Inc / 2019 / ANSYS User’s Manual