Journal of the Korean Society of Marine Environment & Safety (해양환경안전학회지)

The Korean Society of Marine Environment and safety (해양환경안전학회)
권호 표지
DOI QR코드

DOI QR Code

Structure Analysis and Scale Model Test for Strength Performance Evaluation of Submersible Mooring Pulley Installed on Floating Offshore Wind Turbine

부유식 해상풍력발전기용 반잠수식 계류 풀리의 강도 성능평가를 위한 구조해석과 축소 모형시험

  • Chang-Yong Song (Department of Naval Architecture and Ocean Engineering, Mokpo National University)
  • 송창용 (목포대학교 조선해양공학과 )
  • Received : 2023.04.24
  • Accepted : 2023.08.29
  • Published : 2023.08.31
Download PDF
⟨ Previous Next ⟩

Abstract

Recently, the destructive power of typhoons is continuously increasing owing to global warming. In a situation where the installation of floating wind turbines is increasing worldwide, concerns about the huge loss and collapse of floating offshore wind turbines owing to strong typhoons are deepening. A new type of disconnectable mooring system must be developed for the safe operation of floating offshore wind turbines. A new submersible mooring pulley considered in this study is devised to more easily attach or detach the floating of shore wind turbine with mooring lines compared with other disconnectable mooring apparatuses. To investigate the structural safety of the initial design of submersible mooring pulley that can be applied to an 8MW-class floating type offshore wind turbine, scale-down structural models were developed using a 3-D printer and structural tests were performed on the models. For the structural tests of the scale-down models, tensile specimens of acrylonitrile butadiene styrene material that was used in the 3-D printing were prepared, and the material properties were evaluated by conducting the tensile tests. The finite element analysis (FEA) of submersible mooring pulley was performed by applying the material properties obtained from the tensile tests and the same load and boundary conditions as in the scale-down model structural tests. Through the FEA, the structural weak parts on the submersible mooring pulley were reviewed. The structural model tests were conducted considering the main load conditions of submersible mooring pulley, and the FEA and test results were compared for the locations that exceeded the maximum tensile stress of the material. The results of the FEA and structural model tests indicated that the connection structure of the body and the wheel was weak in operating conditions and that of the body and the chain stopper was weak in mooring conditions. The results of this study enabled to experimentally verify the structural safety of the initial design of submersible mooring pulley. The study results can be usefully used to improve the structural strength of submersible mooring pulley in a detailed design stage.

최근 지구 온난화의 영향으로 태풍의 파괴력이 증가함에 따라 부유식 해상풍력발전기의 막대한 유실과 붕괴에 대한 우려가 깊어지고 있다. 부유식 해상풍력발전기의 안전한 운영을 위해 새로운 형태의 탈착형 계류 시스템 개발이 요구되고 있다. 본 연구에서 고려한 새로운 반잠수식 계류 풀리는 기존의 탈착형 계류 장치에 비해 계류 라인으로 부유식 해상풍력 터빈을 보다 쉽게 탈부착할 수 있도록 고안되었다. 8MW급 부유식 해상풍력발전기에 적용 가능한 반잠수식 계류 풀리의 초기 설계에 대한 구조적 안전성을 검토하기 위해 3D 프린터를 이용하여 축소구조모형을 제작하고, 이 모형에 대한 구조시험을 수행하였다. 축소 모형의 구조시험을 위해 3D 프린팅에 사용된 ABS 소재의 인장 시편을 제작하고 인장시험을 수행하여 소재의 물성을 평가하였다. 인장시험에서 얻은 재료 특성과 축소모형 구조 시험과 동일한 하중 및 경계 조건을 적용하여 반잠수식 계류 풀리의 유한요소해석을 수행하였다. 유한요소해석을 통해 반잠수식 계류 풀리의 구조적 취약 부분을 검토하였다. 반잠수식 계류 풀리의 주요 하중조건을 고려하여 구조모형시험을 수행하였으며, 재료의 최대인장응력 이상이 발생하는 위치에 대해 유한요소해석과 시험 결과를 비교하였다. 유한요소해석과 모형시험의 결과로부터 작동조건에서는 Body와 Wheel의 연결부 구조가 취약한 것으로 파악되었고, 계류조건에서는 Body와 Chain stopper의 연결부 구조가 취약한 것으로 검토되었다. 축소모형 구조시험에서 나타난 SMP의 구조 취약부는 구조해석의 결과와 일치하는 것으로 나타났다. 연구 결과를 통해 반잠수식 계류 풀리의 초기 설계에 대한 구조적 안전성을 실험적으로 검증할 수 있었다. 또한, 본 연구 결과는 상세설계 단계에서 반잠수식 계류 풀리의 구조 강도를 향상시키는데 유용하게 활용될 수 있을 것으로 판단된다.

Keywords

Acknowledgement

본 연구는 산업통상자원부(MOTIE)와 한국에너지기술평가원(KETEP)의 지원을 받아 수행한 연구 과제(No. 20213000000030; No. 20223030020240)와 해양수산부의 재원으로 한국해양수산과학기술진흥원의 지원을 받아 수행한 연구 과제(친환경 선박용 전기추진 시스템 시험평가 및 무탄소연료 선박적용성 실증기술개발, No. 1525013494/PMS5390)의 결과입니다.

References

  1. ASTM(2022), ASTM D638-14: Standard Test Method for Tensile Properties of Plastics, USA. 
  2. Eslami, H., L. Hooman, J. Bhagya, and W. Daniele(2021), Nonlinear three-dimensional anisotropic material model for failure analysis of timber, Engineering Failure Analysis, Vol. 130, No. 105764, pp. 1-21.  https://doi.org/10.1016/j.engfailanal.2021.105764
  3. Lee, D. J., C. Y. Song, and K. Lee(2021), Surrogate model based approximate optimization of passive type deck support frame for offshore plant float-over installation, Journal of Ocean Engineering and Technology, Vol. 35, No. 2, pp. 131-140.  https://doi.org/10.26748/KSOE.2021.002
  4. Lee, K. Y., H. S. Choi, E. J. Lee, and T. S. Yoon(2011), Future vision through NL tensioner technology development and domestic equipment fabrication, Journal of Ocean Engineering and Technology, Vol. 25, No. 2, pp. 127-133.  https://doi.org/10.5574/KSOE.2011.25.2.127
  5. Park, C., M. H. Kim, S. M. Hong, J. S. Go, and B. S. Shin(2015), A study on the comparison mechanical properties of 3D printing prototypes with laminating direction, Journal of the Korean Society of Manufacturing Technology Engineers, Vol. 24, No. 3, pp. 334-341.  https://doi.org/10.7735/ksmte.2015.24.3.334
  6. Simulia(2022), Abaqus User Manual/Part VII: Prescribed Conditions, Simulia, USA. 
  7. Song, C. Y., H. Y. Choi, and S. H. Shim(2013), Structural safety evaluation of marine loading arm using finite element analysis, Journal of Ocean Engineering and Technology, Vol. 27, No. 1, pp. 43-50.  https://doi.org/10.5574/KSOE.2013.27.1.043
  8. Song, C. Y., J. Choung, and C. S. Shim(2010), An application of topology optimization for strength design of FPSO riser support structure, Journal of Ocean Engineering and Technology, Vol. 24, No. 1, pp. 153-160. 
  9. Song, J., J. Kim, W. C. Chung, and S. Kim(2021), Analysis method of the supporting he supporting steel frames for offshore floating solar panels based on hydrodynamics, Journal of Korean Society of Steel Construction, Vol. 33, No. 5, pp. 23-27. 
  10. Vega, V., J. Clements, T. Lam, A. Abad, B. Fritz, N. Ula, and O. S. Es-Said(2011), The effect of layer orientation on the mechanical properties and microstructure of a polymer, Journal of Materials Engineering and Performance, Vol. 20, No. 6, pp. 978-988.  https://doi.org/10.1007/s11665-010-9740-z
  11. Yoon, J.(2018), Study of the mechanical properties and orthotropy of ABS materials fabricated by FDM printing, Journal of the Korean Society of Manufacturing Process Engineers, Vol. 17, No. 5, pp. 143-148. https://doi.org/10.14775/ksmpe.2018.17.5.143