• 제목/요약/키워드: monopile substructure

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해상풍력발전기 모노파일 설계민감도해석 및 최적설계 (Design Sensitivity and Optimum Design of Monopile Support Structure in Offshore Wind Turbine)

  • 이지현;김수영
    • 대한조선학회논문집
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    • 제51권1호
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    • pp.78-87
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    • 2014
  • Recently the offshore wind turbine development is requested to be installed off south-west coast and Jeju island in Korea. Reliable and robust support structures are required to meet the demand on the offshore wind turbine in harsh and rapidly varying environmental conditions. Monopile is the most preferred substructure in shallow water with long term experiences from the offshore gas and oil industries. This paper presents an optimum design of a monopile connection with grouted transition piece (TP) for the reliable and cost-effective design purposes. First, design loads are simulated for a 5 MW offshore wind turbine in site conditions off the southwest coast of Korea. Second, sensitivity analysis is performed to investigate the design sensitivity of geometry and material parameters of monopile connection based on the ultimate and fatigue capacities according to DNV standards. Next, optimization is conducted to minimize the total mass and resulted in 30% weight reduction and the optimum geometry and material properties of the monopile substructure of the fixed offshore wind turbine.

3MW 해상풍력발전기 기초구조물 설계 (Design of Substructure for 3MW Offshore Wind Turbine Demonstrator Project)

  • 변철진;주완돈;정석용;박종포
    • 한국신재생에너지학회:학술대회논문집
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    • 한국신재생에너지학회 2010년도 추계학술대회 초록집
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    • pp.185.1-185.1
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    • 2010
  • The 3MW OWEC demonstrator project in Korea will be the first offshore wind project with Korean turbine, Doosan WinDS3000, and constructed on the north-eastern sea of Jeju Island as the water depth of 15m. Integrated loadings of wind and wave are investigated to describe a design loads for both extreme and fatigue conditions using GH-Bladed. A dynamic behaviour of substructure strongly affects a substructure loadings. The jacket structure is designed in accordance with DNV guidelines. The results of this paper show overall design process of offshore substructure as a complex jacket concept and this design process can be implemented on a design of monopile and tripod structures.

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하부구조를 포함한 5MW급 천해용 해상 풍력발전기 구조진동해석 (Structural Vibration Analyses of a 5 MW Offshore Wind Turbine with Substructure)

  • 김동환;김동현;김명환;김봉영
    • 한국소음진동공학회:학술대회논문집
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    • 한국소음진동공학회 2011년도 추계학술대회 논문집
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    • pp.607-613
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    • 2011
  • In this study, structural vibration analyses for a 5MW offshore wind wind-turbine model have been performed for different substructure models. The efficient equivalent modeling method based on computational multi-body dynamics are applied to the finite element models of the present offshore wind turbines. Monopile and tri-pod substructure types of the typical offshore wind-turbine are considered herein. Detailed finite element modeling concepts and boundary conditions are described and the comparison results for previous analyses are presented in order to show the verification of the present numerical approach. Campbell diagrams are also present to investigate the rotational resonance characteristics of the offshore wind-turbines with different substructures.

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나선암초형 월류파력발전 하부구조물의 모드특성 연구 (Investigation on Natural Modes of Substructure of Wave Energy Converter with Overtopping Flow Device)

  • 김병완;신승호;홍기용;최유수;서정오;안익장
    • 한국소음진동공학회논문집
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    • 제20권4호
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    • pp.323-330
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    • 2010
  • An efficient wave energy converter with new overtopping flow device on which spiral reefs are attached is proposed by Maritime and Ocean Engineering Research Institute in Korea and its candidate substructures such as monopile, tripod and jacket are designed. This study investigates modal characteristics of the substructures by analyzing natural frequencies and mode shapes. Based on the modal analysis results, relative strength, governing modes and some complementary design strategies of each candidate substructure are compared and discussed considering water depth conditions.

Experimental studies of impact pressure on a vertical cylinder subjected to depth induced wave breaking

  • Vipin, Chakkurunnipalliyalil;Panneer Selvam, Rajamanickam;Sannasiraj Annamalaisamy, Sannasiraj
    • Ocean Systems Engineering
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    • 제12권4호
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    • pp.439-459
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    • 2022
  • This paper describes experimental studies of impact pressure generated by breaking regular waves in shallow water on a vertical cylinder. Experimental work was carried out in a shallow water flume using a 1:30 - scale model of a vertical rigid circular hollow cylinder with a diameter 0.2 m. This represents a monopile for shallow water offshore wind turbines, subjected to depth induced breaking regular waves of frequencies of 0.8 Hz. The experimental setup included a 1 in 10 sloping bed followed by horizontal bed with a constant 0.8 m water depth. To determine the breaking characteristics, plunging breaking waves were generated. Free surface elevations were recorded at different locations between the wave paddle to the cylinder. Wave impact pressures on the cylinder at a number of elevations along its height were measured under breaking regular waves. The depth-induced wave breaking characteristics, impact pressures, and wave run-up during impact for various cylinder locations are presented and discussed.

Natural frequency of bottom-fixed offshore wind turbines considering pile-soil-interaction with material uncertainties and scouring depth

  • Yi, Jin-Hak;Kim, Sun-Bin;Yoon, Gil-Lim;Andersen, Lars Vabbersgaard
    • Wind and Structures
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    • 제21권6호
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    • pp.625-639
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    • 2015
  • Monopiles have been most widely used for supporting offshore wind turbines (OWTs) in shallow water areas. However, multi-member lattice-type structures such as jackets and tripods are also considered good alternatives to monopile foundations for relatively deep water areas with depth ranging from 25-50 m owing to their technical and economic feasibility. Moreover, jacket structures have been popular in the oil and gas industry for a long time. However, several unsolved technical issues still persist in the utilization of multi-member lattice-type supporting structures for OWTs; these problems include pile-soil-interaction (PSI) effects, realization of dynamically stable designs to avoid resonances, and quick and safe installation in remote areas. In this study, the effects of PSI on the dynamic properties of bottom-fixed OWTs, including monopile-, tripod- and jacket-supported OWTs, were investigated intensively. The tower and substructure were modeled using conventional beam elements with added mass, and pile foundations were modeled with beam and nonlinear spring elements. The effects of PSI on the dynamic properties of the structure were evaluated using Monte Carlo simulation considering the load amplitude, scouring depth, and the uncertainties in soil properties.

해상풍력타워 석션기초의 설치시 거동에 대한 모형 시험 연구 (Installation of Suction Caisson Foundation for Offshore Wind Turbine : Model Test)

  • 김동준;김수린;추연욱;김동수;이만수
    • 한국지반공학회:학술대회논문집
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    • 한국지반공학회 2010년도 추계 학술발표회
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    • pp.825-839
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    • 2010
  • The global and domestic market for offshore wind farm is expected to grow fast, and the design and installation of substructure and foundation is getting more important. As for the offshore wind farms located in the shallow(depth < 20m) water, the construction and installation of the substructure and foundation makes up about 1/4 ~1/3 of the offshore wind farm construction cost, and the portion is expected to increase because the turbine capacity is increasing from 2 ~ 3MW to 5MW or larger and the water depth of wind farms is also increasing over 30m. As a foundation for offshore wind turbine, the suction caisson foundation is being considered to be a highly competitive alternative to the conventional monopile or gravity based structure, because it has features suitable for the offshore construction such as quick installation, no heavy equipment for penetration and no hammering noise for driving. In order to study the installation behaviour of the suction caisson, laboratory tests were performed with sand. The pore water pressure and displacement were measured to analyze the suction pressure during penetration, the penetration speed and the amount of heaving.

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해상 풍력발전체에 작용하는 풍하중과 파랑하중간의 비선형 상쇄간섭 해석 -수리모형실험을 중심으로 (Analysis of Nonlinear Destructive Interaction between Wind and Wave Loads Acting on the Offshore Wind Energy Converter based on the Hydraulic Model Test)

  • 조용준;양기석
    • 한국해안·해양공학회논문집
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    • 제27권5호
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    • pp.281-294
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    • 2015
  • 해상 풍력발전체 최적설계에 필요한 파력과 풍력의 비선형 상쇄 간섭 생성기작을 규명하기 위해 5MW급 해상풍력 발전체를 대상으로 1/50 scale로 수리모형실험을 수행하였다. 해상풍력 발전체의 하부구조물은 시공이 용이하여 가장 선호되는 mono pile로 선정하였다. 돌풍은 Kaimal 스펙트럼과 상호스펙트럼에 기초한 Monte carlo 모로 재현하였으며, 모의결과를 토대로 순간 최대풍속은 10 m/s로 조정하였다. 파고는 해상풍력 시범단지가 예정되어있는 우리나라 서해안 해역의 파황을 고려하여 $H_s=0.1m$, 0.15 m, 0.2 m로 선정하였다. 수리모형실험 결과, 파력과 풍력의 비선형 상쇄 간섭은 해역이 거칠수록 보다 확연하게 관측되었으며, 이러한 결과는 해수면 요철로 인해 대기와 해수면의 경계에서 출현하는 Large eddy가 비선형 상쇄 간섭의 생성 기작이라는 우리의 추론을 뒷받침한다.