• Title/Summary/Keyword: Wave Converter

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A study on design and modeling of a Wave Energy Converter (파력발전기의 에너지 회생을 위한 연구)

  • Yoon, JongIl;Ahn, KyongKwan;Dinh, Quang Truong;Hoang, Huu Tien
    • 한국신재생에너지학회:학술대회논문집
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    • 2011.05a
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    • pp.167.2-167.2
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    • 2011
  • Motions in nature, for example ocean wave, has been playing a significant role for generating electricity production in our modern life. This paper presents an innovative approach for electric power conversion of the vast ocean wave energy. Here, a floating-buoy wave energy converter (WEC) using hydrostatic transmission (HST), which is shortened as HSTWEC, is proposed and designed to enhance the wave energy harvesting task during all wave fluctuations. In this HSTWEC structure, the power take-off system (PTO) is a combination of the designed HST circuit and an electric generator to convert mechanical energy generated by ocean wave into electrical energy. Several design concepts of the HSTWEC have been considered in this study for an adequate investigation. Modeling and simulations using MATLAB/Simulink and AMESim are then carried out to evaluate these design concepts to find out the best solution. In addition, an adaptive controller is designed for improving the HSTWEC performance. The effectiveness of the proposed HSTWEC control system is finally proved by numerical simulations.

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Design of the dual-buoy wave energy converter based on actual wave data of East Sea

  • Kim, Jeongrok;Kweon, Hyuck-Min;Jeong, Weon-Mu;Cho, Il-Hyoung;Cho, Hong-Yeon
    • International Journal of Naval Architecture and Ocean Engineering
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    • v.7 no.4
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    • pp.739-749
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    • 2015
  • A new conceptual dual-buoy Wave Energy Converter (WEC) for the enhancement of energy extraction efficiency is suggested. Based on actual wave data, the design process for the suggested WEC is conducted in such a way as to ensure that it is suitable in real sea. Actual wave data measured in Korea's East Sea (position: $36.404N^{\circ}$ and $129.274E^{\circ}$) from May 1, 2002 to March 29, 2005 were used as the input wave spectrum for the performance estimation of the dual-buoy WEC. The suggested WEC, a point absorber type, consists of two concentric floating circular cylinders (an inner and a hollow outer buoy). Multiple resonant frequencies in proposed WEC affect the Power Ttake-off (PTO) performance of the WEC. Based on the numerical results, several design strategies are proposed to further enhance the extraction efficiency, including intentional mismatching among the heave natural frequencies of dual buoys, the natural frequency of the internal fluid, and the peak frequency of the input wave spectrum.

Oscillating Water Column (OWC) Wave Energy Converter Part 1: Fixed OWC

  • Yang, Hyunjai;Jung, Hyen-Cheol;Koo, WeonCheol
    • Journal of Ocean Engineering and Technology
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    • v.36 no.4
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    • pp.280-294
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    • 2022
  • This study reviews the recent development and research results of a fixed oscillating water column (OWC) wave energy converter (WEC). The OWC WEC can be divided into fixed and floating types based on the installation location and movement of the structure. In this article, the study on a stationary OWC WEC, which is close to commercialization through the accumulation of long-term research achievements, is divided into five research categories with a focus on primary energy conversion research. These research categories include potential-flow-based numerical analysis, wave tank experiments, computational fluid dynamics analyses toward investigation of fluid viscous effects, U-shaped OWC studies that can amplify water surface displacement in the OWC chamber, and studies on OWC prototypes that have been installed and operated in real sea environments. This review will provide an overview of recent research on the stationary OWC WEC and basic information for further detailed studies on the OWC.

Design of a 50kW Class Rotating Body Type Highly Efficient Wave Energy Converter (50kW급 가동물체형 고효율 파력발전시스템 설계)

  • Cho, Byung-Hak;Yang, Dong-Soon;Park, Shin-Yeol;Choi, Kyung-Shik;Park, Byung-Chul
    • Journal of Hydrogen and New Energy
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    • v.22 no.4
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    • pp.552-558
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    • 2011
  • A 50 kW class rotating body type wave energy converter consisted of two floating bodies and a PTO (Power Takeoff) unit is studied. As an wave energy extractor, the body is designed to have a VLCO (Variable Liquid-Column Oscillator) having a liquid filled U-tube with air chambers. Owing to the oscillation of the liquid in the U-tube caused by the air spring effect of the air chambers, the amplitude of response of the VLCO becomes significantly amplified for a target wave period. The PTO converts the rotational moment introduced from the relative motion of the hinged bodies to an hydraulic power by means of a cylinder. A high pressure accumulator, hydraulic motor and a generator are equipped in the PTO to convert the hydraulic power to electric power. A control law for adjusting the oscillation period of the VLCO is proposed for the efficient operation of the VLCO with various wave conditions. It is found that the effect of the air spring has an important role to play in making the oscillation of the VLCO match with the ocean wave. In this way, the wave energy converter equipped with the VLCO provides the most effective mode for extracting energy from the ocean wave.

Investigation of Moving Angle of Power Take off Mechanism on the Efficiency of Wave Energy Converter (파력발전기의 동력인출장치의 회전각도가 효율에 미치는 영향 분석)

  • Do, H.T.;Nguyen, M.T.;Phan, C.B.;Lee, S.Y.;Park, H.G.;Ahn, K.K.
    • Journal of Drive and Control
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    • v.12 no.3
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    • pp.25-35
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    • 2015
  • The hydraulic power-take-off mechanism (HPTO) is one of the most popular methods in wave energy converters (WECs). However, the conventional HPTO with only one direction motion has a number of drawbacks that limit its power capture capability. This paper proposes an adjustable moving angle wave energy converter (AMAWEC) and investigates the effect of the moving angle on the performance of the wave energy converter to find the optimal moving angle in order to increase the power capture capability as well as energy efficiency. A mathematical model of components from a floating buoy to a hydraulic motor was modeled. A small scale WEC test rig was fabricated to verify the power capture capability and efficiency of the proposed system through experiments.

A study for electric power of float-counterweight wave energy converter (복수 연결된 부유체-균형추식 파력발전장치의 전력량에 관한 연구)

  • Lee, Sung-Bum;Hadano, Kesayoshi;Moon, Byung-Young
    • Journal of Advanced Marine Engineering and Technology
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    • v.38 no.7
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    • pp.936-942
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    • 2014
  • As a result of the exhaustion of fossil fuel, interest about renewable energy is increasing day by day. Inter alia, study for wave power energy of which the calculability is high and the available amount is abundant is going along actively. As a float-countweight wave energy converter is equivalent improved structural strength compared with oscillating body type. we made the wave only in order to up and down motion by setting up bulkhead which is called wave camber at the outside of float. This paper mainly focuses on generation amount of plural connected float-counterweight wave energy converter and we calculate the amount. The result, we confirmed that the more a numerical value of nl/L increases, the more amount of electricity rises and also when it is over nl/L=0.40, it is possible to get continuous generation. Through this study, we can use as basic data for design of wave chamber on advantageous condition at the real seas and by way of estimation for generation amount.

Analysis of Resonance Efficiency According to Length and Entrance Depth of Channel Resonance Part of Multi-Resonance Wave Energy Converter (다중공진 파력발전체의 수로 공진부 길이와 입구 깊이별 공진 효율 분석)

  • Sukjin Ahn;Changhoon Lee;Hyen-cheol Jung;Hyukjin Choi
    • Journal of Korean Society of Coastal and Ocean Engineers
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    • v.36 no.4
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    • pp.138-148
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    • 2024
  • Multi-resonance wave energy converter can generate efficient power generation by complexly utilizing the resonance phenomenon of waves even when waves propagate normally. As the wave is amplified by resonance, the power generation efficiency of the multi-resonance wave energy converter increases, and the shape of the resonance part needs to be optimized to maximize power generation efficiency. The multi-resonance wave energy converter amplifies waves in the seiche resonance part and the channel resonance part. In this study, CFD numerical experiments were performed under various conditions such as the length and location of the channel resonance part to analyze the sensitivity for each condition and derve the optimal shape of the channel resonance part.

Wave Energy Extraction using Partially Submerged Pendulum Plate with Quay Wall (안벽 앞에 부분 잠긴 진자판에 의한 파랑에너지 추출)

  • Cho, Il-Hyoung;Lee, Hyebin;Bae, Yoon Hyeok
    • Journal of Ocean Engineering and Technology
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    • v.31 no.3
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    • pp.208-218
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    • 2017
  • The performance of a wave energy converter (WEC) that uses the rolling motion of a partially submerged pendulum plate in front of a quay wall was analyzed. The wave exciting moment and hydrodynamic moment were obtained using a matched eigenfunction expansion method (MEEM) based on the linear potential theory, and then the roll motion response of a pendulum plate, time averaged extracted power, and efficiency were investigated. The optimal PTO damping coefficient was suggested to give the optimal extracted power. The peak value of the optimal extracted power occurs at the resonant frequency. The resonant peak and its width increase as the submergence depth of the pendulum plate decreases and thickness of the pendulum plate increases. An increase in the wave incidence angle reduces the efficiency of the wave energy converter. In addition, the WEC using a rolling pendulum plate contributes not only to the extraction of the wave energy, but also to a reduction in the waves reflected from the quay wall, which helps to stabilize ships going near the quay wall.

Fluid-structure interaction simulation of a floating wave energy convertor with water-turbine driven power generation

  • Zullah, Mohammed Asid;Lee, Young-Ho
    • Journal of Advanced Marine Engineering and Technology
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    • v.40 no.8
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    • pp.710-720
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    • 2016
  • The Floating Wave Energy Convertor (FWEC) mooring design has an important requirement associated with the fact that, for a wave energy converter, the mooring connections may interact with their oscillations, possibly modifying its energy absorption significantly. It is therefore important to investigate what might be the most suitable mooring design according to the converter specifications and take into account the demands placed on the moorings in order to assure their survivability. The objective of this study is to identify a computational fluid dynamics method for investigating the effects of coupling a wave energy device with a mooring system. Using the commercial software ANSYS AQWA and ANSYS FLUENT, a configuration was studied for different displacements from the equilibrium position, load demands on the moorings, and internal fluid motion. These results and findings form a basis for future efforts in computational model development, design refinement, and investigation of station keeping for FWEC units.

Improved full wave mode ZVT-PWM DC-DC Converters (개선된 전파형 ZVT-PWM DC-DC 컨버터)

  • Kim T.W.;Kang A.J.;Chin G.H.;Kim H.S.
    • Proceedings of the KIPE Conference
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    • 2003.07b
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    • pp.777-780
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    • 2003
  • In this paper, an improved full wave mode ZVT-PWM DC-DC Converter is presented to maximize the regeneration ratio of resonant energy by only putting an additional diode in series with auxiliary switch. The operation of auxiliary switch in a half wave mode makes possible the soft switching condition of all switches. Furthermore, the increase of the regeneration ratio to resonant energy results in low conduction losses and minimum voltage and current stresses. The operation principles of the proposed converters are analyzed using the PWM boost converter topology as an example. Theoretically analysis and experimental results verify the validity of the boost converter topology with the proposed full wave mode ZVT-PWM converters

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