Response and Power Absorption Assessment of the TALOS Wave Energy Converter in Time Domain

被引:0
作者
Michailides, Constantine [1 ]
Loukogeorgaki, Eva [2 ]
Sheng, Wanan [3 ,4 ]
Aggidis, George [3 ,4 ]
机构
[1] Int Hellen Univ, Dept Civil Engn, Serres Univ Campus, Serres, Greece
[2] Aristotle Univ Thessaloniki, Dept Civil Engn, Thessaloniki, Greece
[3] Univ Lancaster, Engn Dept, Renewable Energy Grp, Lancaster, England
[4] Univ Lancaster, Engn Dept, Fluid Machinery Grp, Lancaster, England
来源
INTERNATIONAL JOURNAL OF OFFSHORE AND POLAR ENGINEERING | 2024年 / 34卷 / 01期
基金
英国工程与自然科学研究理事会;
关键词
Wave energy; multi-mode WEC; TALOS; time-domain; responses; power; TAKE-OFF; CAPTURE;
D O I
10.17736/ijope.2024.jc924
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
In this paper, the response and the power absorption ability of the TALOS multi-mode WEC are preliminarily assessed for various environmental and operational conditions, by deploying two different computational tools and assuming linear mooring lines' behavior. The device consists of an internal sphere attached to its floater with springs and dampers, while power is absorbed through the sphere's motions relatively to the floater. A comparative study is, initially, conducted assuming rigid connection of the sphere with the floater. Next, by enabling the sphere to oscillate in heave, as well as in both heave and surge, the device's performance for one and two operational modes is assessed. The two-mode PTO mechanism operation results in an increased power absorption of the device (max mean value of 238 kW) and in insignificant effects in motion responses.
引用
收藏
页码:29 / 36
页数:8
相关论文
共 50 条
[21]   Approaching Maximum Power Conversion with Exergy-based Adaptive Wave-by-Wave Control of a Wave Energy Converter [J].
Korde, Umesh A. ;
Robinett, Rush D., III ;
Wilson, David G. .
OCEANS 2015 - MTS/IEEE WASHINGTON, 2015,
[22]   A Review of Power Electronics for Nearshore Wave Energy Converter Applications [J].
Burhanudin, Jariyani ;
Abu Hasim, Ahmad Shukri ;
Ishak, Asnor Mazuan ;
Burhanudin, Jariyati ;
Dardin, Syed Mohd Fairuz Bin Syed Mohd .
IEEE ACCESS, 2022, 10 :16670-16680
[23]   On the Ratio of Reactive to Active Power in Wave Energy Converter Control [J].
Said, Hafiz Ahsan ;
Garcia-Violini, Demian ;
Faedo, Nicolas ;
Ringwood, John V. .
IEEE OPEN JOURNAL OF CONTROL SYSTEMS, 2024, 3 :14-31
[24]   STUDY ON MOTION RESPONSE AND POWER CAPTURE CHARACTERISTICS OF HINGED MULTIPLE FLOATING BODIES WAVE ENERGY CONVERTER [J].
Wang W. ;
Jiang J. ;
Sheng S. .
Taiyangneng Xuebao/Acta Energiae Solaris Sinica, 2023, 44 (02) :218-223
[25]   Experimental studies and time-domain simulation of a hinged-type wave energy converter in regular waves [J].
Peng H.H. ;
Qiu W. ;
Meng W. ;
Chen M. ;
Lundrigan B. ;
Gardiner T. .
Marine Systems and Ocean Technology, 2020, 15 (01) :1-15
[26]   Life Cycle Assessment of an Oscillating Wave Surge Energy Converter [J].
Apolonia, Maria ;
Simas, Teresa .
JOURNAL OF MARINE SCIENCE AND ENGINEERING, 2021, 9 (02)
[27]   Life cycle assessment of a wave energy converter: Uncertainties and sensitivities [J].
Zhai, Qiang ;
Li, Tong ;
Liu, Yizhi .
JOURNAL OF CLEANER PRODUCTION, 2021, 298
[28]   Environmental Impact Assessment (EIA) of Wave Energy Converter (WEC) [J].
Viola, Alessia ;
Franzitta, Vincenzo ;
Curto, Domenico ;
Di Dio, Vincenzo ;
Milone, Daniele ;
Rodono, Giuseppe .
OCEANS 2015 - GENOVA, 2015,
[29]   Hydrodynamic Response and Power Performance of A Heave and Pitch Buoy Wave Energy Converter Under Bimodal Ochi—Hubble Wave Spectrum [J].
Shu-ting Huang ;
Yan-jun Liu ;
Gang Xue ;
Yi-fan Xue .
China Ocean Engineering, 2022, 36 :28-37
[30]   Wave tank experiments on the power capture of a multi-axis wave energy converter [J].
Dahai Zhang ;
Aggidis George ;
Yifei Wang ;
Xinxing Gu ;
Wei Li ;
Ying Chen .
Journal of Marine Science and Technology, 2015, 20 :520-529
12345