사용자-서브루틴과 양해법 유한 요소 해석을 이용한 선박의 유빙 저항 추정Ice Floe-induced Ship Resistances using Explicit Finite Element Analyses with a User-subroutine
- Other Titles
- Ice Floe-induced Ship Resistances using Explicit Finite Element Analyses with a User-subroutine
- Authors
- 한동화; 백광준; 정성엽; 정준모
- Issue Date
- 2020
- Publisher
- 대한조선학회
- Keywords
- Ice floe(유빙); Ice resistance(빙 저항); User-subroutine(사용자 서브루틴); Drag-force(항력); Buoyancy(부력)
- Citation
- 대한조선학회 논문집, v.57, no.2, pp 88 - 95
- Pages
- 8
- Journal Title
- 대한조선학회 논문집
- Volume
- 57
- Number
- 2
- Start Page
- 88
- End Page
- 95
- URI
- https://www.kriso.re.kr/sciwatch/handle/2021.sw.kriso/293
- DOI
- 10.3744/SNAK.2020.57.2.088
- ISSN
- 1225-1143
- Abstract
- There have been many attempts to predict resistance of vessels in ice floe environment, but they mostly have both strong and weak points at the same time; for instance, simplified formulas are very fast but less flexible to types of ship and ice conditions and other numerical techniques need high computing cost for increased accuracy. A new numerical simulation technique of combining explicit finite element analysis code with a user-subroutine to control real-time forces acting on ice floes was proposed, thereby it was possible to predict ship-to-ice floe resistance with higher convenience and accuracy than other proposed approaches. The basic theory on how real-time hydrostatic and hydrodynamic forces acting on ice floes could be generated using user-subroutine was explained. The heave motion of a single ice floe was simulated using the user-subroutine and the motion amplitudes and periods were almost consistent with analytic values. Towing tests of an icebreaker model ship were simulated using explicit finite element analyses with the user-subroutine. The ice-induced resistance obtained from the towing experiments and simulations showed significant differences. Intentional increase of the drag coefficient to increase the contact duration between the ice floes and rigid model ship leaded the total resistance to be substantially consistent between the model tests and numerical simulations.
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