Relevant bibliographies by topics / Wave-to-wire

Academic literature on the topic 'Wave-to-wire'

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Published: 10 March 2023

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Journal articles on the topic "Wave-to-wire"

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KUTSUNA, Muneharu. "From Welding Wire to 4th Wave." JOURNAL OF THE JAPAN WELDING SOCIETY 78, no. 3 (2009): 179–81. http://dx.doi.org/10.2207/jjws.78.179.

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Penalba, Markel, and John Ringwood. "A Review of Wave-to-Wire Models for Wave Energy Converters." Energies 9, no. 7 (June 30, 2016): 506. http://dx.doi.org/10.3390/en9070506.

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Josset, C., A. Babarit, and A. H. Clément. "A wave-to-wire model of the SEAREV wave energy converter." Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment 221, no. 2 (May 25, 2007): 81–93. http://dx.doi.org/10.1243/14750902jeme48.

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Penalba, Markel, and John V. Ringwood. "A high-fidelity wave-to-wire model for wave energy converters." Renewable Energy 134 (April 2019): 367–78. http://dx.doi.org/10.1016/j.renene.2018.11.040.

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GRASSI, Flavia, Giordano SPADACINI, Keliang YUAN, and Sergio A. PIGNARI. "Relating Crosstalk to Plane-Wave Field-to-Wire Coupling." IEICE Transactions on Communications E99.B, no. 11 (2016): 2406–13. http://dx.doi.org/10.1587/transcom.2016ebp3027.

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Sousounis and Shek. "Wave-to-Wire Power Maximization Control for All-Electric Wave Energy Converters with Non-Ideal Power Take-Off." Energies 12, no. 15 (July 31, 2019): 2948. http://dx.doi.org/10.3390/en12152948.

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The research presented in this paper investigates novel ways of optimizing all-electric wave energy converters for maximum wave-to-wire efficiency. In addition, a novel velocity-based controller is presented which was designed specifically for wave-to-wire efficiency maximization. In an ideal wave energy converter system, maximum efficiency in power conversion is achieved by maximizing the hydrodynamic efficiency of the floating body. However, in a real system, that involves losses at different stages from wave to grid, and the global wave-to-wire optimum differs from the hydrodynamic one. For that purpose, a full wave-to-wire wave energy converter that uses a direct-drive permanent magnet linear generator was modelled in detail. The modelling aspect included complex hydrodynamic simulations using Edinburgh Wave Systems Simulation Toolbox and the electrical modelling of the generator, controllers, power converters and the power transmission side with grid connection in MATLAB/Simulink. Three reference controllers were developed based on the previous literature: a real damping, a reactive spring damping and a velocity-based controller. All three literature-based controllers were optimized for maximum wave-to-wire efficiency for a specific wave energy resource profile. The results showed the advantage of using reactive power to bring the velocity of the point absorber and the wave excitation force in phase, which was done directly using the velocity-based controller, achieving higher efficiencies. Furthermore, it was demonstrated that maximizing hydrodynamic energy capture may not lead to maximum wave-to-wire efficiency. Finally, the controllers were also tested in random sea states, and their performance was evaluated.
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Bokhove, O., A. Kalogirou, and W. Zweers. "From Bore–Soliton–Splash to a New Wave-to-Wire Wave-Energy Model." Water Waves 1, no. 2 (November 2019): 217–58. http://dx.doi.org/10.1007/s42286-019-00022-9.

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AbstractWe explore extreme nonlinear water-wave amplification in a contraction or, analogously, wave amplification in crossing seas. The latter case can lead to extreme or rogue-wave formation at sea. First, amplification of a solitary-water-wave compound running into a contraction is disseminated experimentally in a wave tank. Maximum amplification in our bore–soliton–splash observed is circa tenfold. Subsequently, we summarise some nonlinear and numerical modelling approaches, validated for amplifying, contracting waves. These amplification phenomena observed have led us to develop a novel wave-energy device with wave amplification in a contraction used to enhance wave-activated buoy motion and magnetically induced energy generation. An experimental proof-of-principle shows that our wave-energy device works. Most importantly, we develop a novel wave-to-wire mathematical model of the combined wave hydrodynamics, wave-activated buoy motion and electric power generation by magnetic induction, from first principles, satisfying one grand variational principle in its conservative limit. Wave and buoy dynamics are coupled via a Lagrange multiplier, which boundary value at the waterline is in a subtle way solved explicitly by imposing incompressibility in a weak sense. Dissipative features, such as electrical wire resistance and nonlinear LED loads, are added a posteriori. New is also the intricate and compatible finite-element space–time discretisation of the linearised dynamics, guaranteeing numerical stability and the correct energy transfer between the three subsystems. Preliminary simulations of our simplified and linearised wave-energy model are encouraging and involve a first study of the resonant behaviour and parameter dependence of the device.
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Cantarellas, Antoni, Daniel Remon, Weiyi Zhang, and Pedro Rodriguez. "Adaptive vector control based wave‐to‐wire model of wave energy converters." IET Power Electronics 10, no. 10 (August 2017): 1111–19. http://dx.doi.org/10.1049/iet-pel.2016.0796.

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Penalba, Markel, and John V. Ringwood. "Linearisation-based nonlinearity measures for wave-to-wire models in wave energy." Ocean Engineering 171 (January 2019): 496–504. http://dx.doi.org/10.1016/j.oceaneng.2018.11.033.

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Curran, R., T. J. T. Whittaker, and T. P. Stewart. "Aerodynamic conversion of ocean power from wave to wire." Energy Conversion and Management 39, no. 16-18 (November 1998): 1919–29. http://dx.doi.org/10.1016/s0196-8904(98)00064-8.

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Dissertations / Theses on the topic "Wave-to-wire"

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Wang, Liguo. "Modelling and Advanced Control of Fully Coupled Wave Energy Converters Subject to Constraints: the Wave-to-wire Approach." Doctoral thesis, Uppsala universitet, Elektricitetslära, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-320906.

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Ocean wave energy is a promising renewable source to contribute to supplying the world’s energy demand. The Division of Electricity at Uppsala University is developing a technology to capture energy from ocean waves with a wave energy converter (WEC) consisting of a linear permanent magnet generator and a point absorber. The linear generator is placed on sea bed and is driven directly by the floating absorber. Since March 2006, multiple wave energy converters have been deployed on the Swedish west coast outside the town of Lysekil. The technology is verified by long-term operation during at sea and satisfactory reliability of the electricity generation. This thesis focuses on developing advanced control strategies for fully coupled wave energy converters subject to constraints. A nonlinear control strategy is studied in detail for a single WEC subject to constraints under regular and irregular waves. Besides, two coordinated control strategies are developed to investigate the performance of a wave energy farm subject to constraints. The performance of the WECs using these control strategies are investigated in case studies, and optimal PTO damping coefficients are found to maximize the output power. The results show that these control strategies can significantly improve the performance of the WECs, in terms of mean power, compared to a conventional control. Besides these control strategies, a wave-to-wire simulation platform is built to study the power generation control of the WEC subject to constraints.  The wave-to-wire simulation platform allows both nonlinear and linear control force. The results show that there is a good agreement between the desired value and the actual value after advanced control.
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Sandvik, Christian Mclisky. "Wave-to-Wire Model of the Wave Energy Converter Bolt2 : Control and Power Extraction with an All-Electric Power Take-Off System." Thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for elkraftteknikk, 2012. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-18393.

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Fred Olsen is currently testing their latest wave energy converter outside of Falmouth Bay in England, preparing it for commercial exploitation at the Wavehub-project. Previous studies have shown that this device has potential for increased power extraction using reactive control, but so far these investigations have focused on the hydrodynamics of the device and on reducing the peak-to-average power ratio while omitting the effect of the electric power take off system. This thesis shows the development of the hydrodynamic model of the device as well as a detailed model of the all-electric power take-off system consisting of a permanent magnet synchronous generator, inverter and DC-link. Vector Control is used to control the Permanent Magnet Synchronous Generator, and field weakening control of the generator is applied in order allow over-speed operation. Time domain wave-to-wire simulations are performed to evaluate the power take off capabilities of the modelled wave energy converter with different control parameters. When tuned according to approximate complex conjugate control the accumulated average generator losses become large, giving a very low overall system efficiency. Optimal control with respect to electrical output power is found to be with low added mass, and when compared to pure passive loading a 1% increase in annual energy production is achieved. The main factor that reduces the effect of reactive control is found to be the minimum load-force constraint of the device, which cannot be lower than 1 ton. Example simulations on a device with different force constraint are performed which verifies this characteristic.These results suggests that the Bolt2 has limited potential for increase in power extraction by implementing reactive control. The analysis in this thesis is nevertheless valuable, as it demonstrates how a wave-to-wire model can be used for power take-off investigations, annual energy production estimations and evaluations of different control techniques.
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Clemot, Hélène. "Etude de l’intégration des systèmes houlomoteurs au réseau électrique : Développement d’un modèle « de la vague au réseau électrique »." Thesis, Ecole centrale de Nantes, 2017. http://www.theses.fr/2017ECDN0048/document.

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La qualité de la puissance injectée au réseau électrique est une problématique importante pour le développement des énergies marines renouvelables, et en particulier de l'énergie des vagues, ou énergie houlomotrice. En effet la puissance produite par les systèmes houlomoteurs à entrainement direct est très fluctuante (fluctuations de l'ordre de la seconde) à cause de la nature oscillante de la ressource. Afin d'étudier l'impact de l'intégration des ces systèmes sur les réseaux électriques, un modèle permettant de représenter la chaîne depuis la vague jusqu'au réseau électrique a été développé. Les simulations effectuées à l'aide de ce modèle pour différents types de réseau électrique et différents états de mer ont montré que la mise en place de solutions pour améliorer la qualité de la puissance produite était nécessaire. Ainsi l'effet du regroupement et de la dispersion spatiale des systèmes houlomoteurs sur la qualité de la puissance a été étudiée. L'insertion d'un système de stockage dans la chaîne wave-to-wire afin de lisser la puissance a aussi été considérée. Enfin, une partie du modèle a pu être validée à l'aide d'un banc de test Hardware-in-the-loop comprenant un banc moteur, des armoires de puissance pour émuler électronique de puissance et le réseau électrique et un module de supercondensateurs
Power quality is an important issue for the development of marine renewable energies, in particular wave energy. Due to the oscillatory nature of the oceans waves, the wave energy converters output power profile can present fluctuations in the range of seconds. The impact of these devices on the electric grid therefore needs to be investigated for wave farms to be connected to the grid. In order to emulate an operating direct drive wave energy converter, study power quality improvement and test different control strategies, a wave-to-wiremodel has been developed.Simulations carried out with this model for different grid strengths and different levels of sea-state showed that it is necessary to foster solutions to improve power quality. Thus, the wave energy converters aggregating and dispersion effects on power quality have been investigated. As it does not seem sufficient to meet the grid codes requirements, another solution have been considered, consisting of the insertion of an energy storage system into the chain. Finally, a part of the model has been validated using a hardware-in-the-Loop test bench including a motorbench, power modules to emulate the grid and power electronic's control and super capacitors module
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Ciappi, Lorenzo. "Wave-to-wire modelling of oscillating water column wave energy converters and design optimisation for the Mediterranean Sea." Doctoral thesis, 2021. http://hdl.handle.net/2158/1245178.

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The Ph.D. Thesis describes the modelling and the results of an analytical wave-to-wire model of OWC wave energy converters for the investigation of the entire process of energy transformation from sea waves to the electric wire. This approach is particularly suitable during the early design stages to evaluate the energy extractable from sea waves and properly select the location and the main geometric and operating parameters of the system. The model performs a comprehensive simulation of the entire system to estimate the electric energy production for a specific sea state, based on the joint solution of the analytical models of the three main converters, represented by the chamber, turbine, and generator.
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Book chapters on the topic "Wave-to-wire"

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Alves, Marco. "Wave-to-Wire Modelling of WECs." In Handbook of Ocean Wave Energy, 261–87. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-39889-1_10.

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Suchithra, R., and Abdus Samad. "Control-Oriented Wave to Wire Model of Oscillating Water Column." In Lecture Notes in Civil Engineering, 705–16. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-3134-3_52.

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Rosati, M., J. V. Ringwood, and J. C. C. Henriques. "A comprehensive wave-to-wire control formulation for oscillating water column wave energy converters." In Trends in Renewable Energies Offshore, 329–37. London: CRC Press, 2022. http://dx.doi.org/10.1201/9781003360773-38.

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Dréau, Francesco Ferri. "Wave-to-wire Modelling of Wave Energy Converters." In Wave-to-wire Modelling of Wave Energy Converters, 1–180. River Publisher, 2014. http://dx.doi.org/10.13052/rp-9788793237247.

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Sghaier, Nizar. "Iterative Technique for Analysis and Design of Circular Leaky-Wave Antenna for the 2.45 GHz RFID Applications." In Power Electronics, RF, and Microwave Engineering [Working Title]. IntechOpen, 2022. http://dx.doi.org/10.5772/intechopen.106990.

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This chapter proposes another scaled-down receiving wire for Radio Frequency Identification uses of 2.45 GHz. Our design comprises of a roundabout microstrip fix radio wire which integrates two concentric annular openings imprinted on multi-facet substrates. The transmission capacity, one of the main qualities of radio wire, can be essentially improved by utilizing a multi-facet dielectric setup. We point by this review to show that the impact of emanating structure stacked by annular rings for the fixed size decrease as well as the benefit of this construction is to make a roundabout polarization toward maximal radiation design. The wave idea iterative method is utilized to examine this new radio wire. Utilizing the proposed technique, less figuring time and memory are expected to work out the electromagnetic boundaries of our plan. The approval of the consequences of our created model was checked with realized business programming called “CST Microwave Studio Software” trailed by a trial test. As per the arrived results, we can decide that our new plan radio wire is reasonable for RFID applications in the 2.45 GHz band.
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Guenther, B. D. "Polarizers." In Modern Optics Simplified, 159–87. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780198842859.003.0005.

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Introduction to how to measure polarization and the degree of polarization, The various physical processes used to control polarization including: absorption, reflection, interference, and birefringence. An explaination of the operation of a wire grid and its molecular equivalent, a polaroid plastic are given. Fresnel formula for reflection is used to calculate the Stokes component of the reflected light. A brief introduction to the concept of birefringence is given and the various designs of birefringent prism polarizers are listed with their advantanges and shortcomings. A sample design of a prism polarizer is given. Quarter wave and half wave retarders and their use are discussed. An optional section is devoted to optical activity and the use of chiral measurements in chemistry and drug manufacturing are discussed.
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De Padova, Diana, and Michele Mossa. "Hydrodynamics of Regular Breaking Wave." In Geophysics and Ocean Waves Studies [Working Title]. IntechOpen, 2020. http://dx.doi.org/10.5772/intechopen.94449.

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Turbulence and undertow currents play an important role in surf-zone mixing and transport processes; therefore, their study is fundamental for the understanding of nearshore dynamics and the related planning and management of coastal engineering activities. Pioneering studies qualitatively described the features of breakers in the outer region of the surf zone. More detailed information on the velocity field under spilling and plunging breakers can be found in experimental works, where single-point measurement techniques, such as Hot Wire Anemometry and Laser Doppler Anemometry (LDA), were used to provide maps of the flow field in a time-averaged or ensemble-averaged sense. Moreover, the advent of non-intrusive measuring techniques, such as Particle Image Velocimetry (PIV) provided accurate and detailed instantaneous spatial maps of the flow field. However, by correlating spatial gradients of the measured velocity components, the instantaneous vorticity maps could be deduced. Moreover, the difficulties of measuring velocity due to the existence of air bubbles entrained by the plunging jet have hindered many experimental studies on wave breaking encouraging the development of numerical model as useful tool to assisting in the interpretation and even the discovery of new phenomena. Therefore, the development of an WCSPH method using the RANS equations coupled with a two-equation k–ε model for turbulent stresses has been employed to study of the turbulence and vorticity distributions in in the breaking region observing that these two aspects greatly influence many coastal processes, such as undertow currents, sediment transport and action on maritime structures.
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Vasiliu, Nicolae, Daniela Vasiliu, Constantin Drăgoi, Constantin Călinoiu, and Toma Cojocaru-Greblea. "Hybrid Steering Systems for Automotive Applications." In Automotive System Engineering - New Methods and Optimal Solutions [Working Title]. IntechOpen, 2020. http://dx.doi.org/10.5772/intechopen.94460.

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The paper presents the results of the researches performed in order to find out the static and dynamic performances of some recent types of hybrid electrohydraulic servomechanisms. The new concept was generated by the needs of the modern aerospace technology called “flight by wire”, directed to the use of compact actuators composed mainly by a brushless motor driving a hydrostatic pump connected in a close loop with a hydraulic cylinder. The numerical simulations performed with Simcenter Amesim language pointed out the possibility of saving a lot of energy with this new concept, already used on civil airplanes and fighters. The new wave of autonomous driving generated a lot of combinations of electric and hydraulic components, according the peculiarities of applications. The authors studied the accuracy of the hybrid steering system of an articulated tractor based on a digital industrial servo valve combined with an ORBITROL standard unit. The structure of the last generation of the trucks hybrid steering systems was also studied, taking into account the real performances of each component. Finally, the effect of the strong penetration of the hybrid servo systems in the automotive manufacturing systems is assessed.
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V., Nagaraj, Lalitha T., Sampath Kumar B., and Balaji Vignesh L. K. "Dual-Band Helical Reflect Array Antenna for High Power Microwave Applications." In Antenna Design for Narrowband IoT, 192–200. IGI Global, 2022. http://dx.doi.org/10.4018/978-1-7998-9315-8.ch014.

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A reflect cluster receiving wire (RAA) with a wideband high-power double branch helical reflect cluster is demonstrated. Two metal helical branches make up the reflecting component, and the movable pivot points allow for full 360o stage rotation. A 9 X 9 rectangular cross section X-band RAA model is imitated and estimated. The best get of 23.7 dB is achieved with the bar concentrated at (=20,=0) course at focus repeat of 9.3 GHz, and the 1-dB get a move on is more than 24.2%, according to full-wave reenactments. In the entire band, the intentional reflection coefficient is not exactly - 16.3 dB. The endeavored significant rate is under 2.3 dB from 8.4 GHz to 10.8 GHz. The attempted get at center rehash is 23.4 dB, and the differentiating opening helpfulness is 50.6%. The RAA's bar inspecting execution is endeavored inside 30o exactness in two balanced planes with a check trouble of under 1.5 dB and focus point degrees of under 1.4 dB. Under vacuum, the mirrored results provide the appearance that the RAA's force taking care of limit is approximately 358 MW.
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Raha, Krishnendu, and Kamla Prasan Ray. "Low-Cost Simple Compact and Portable Ground-Penetrating Radar Prototype for Detecting Improvised Explosion Devices." In Intelligent Electronics and Circuits - Terahertz, IRS, and Beyond [Working Title]. IntechOpen, 2022. http://dx.doi.org/10.5772/intechopen.104744.

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This chapter presents the design and fabrication of a low-cost continuous-wave ground-penetrating radar for detecting improvised explosive devices buried in the soil for use of security forces. It is low cost and simple because it uses a single frequency (920 MHz) and is designed only for the detection of the buried target. The work presented includes designing of transmitter system module, receiver system module, antennas, power module, graphical user interface module, and making a prototype that is compact and portable. The chapter explains the concept and illustrates a method to enhance isolation between antennas, which is a very important parameter for the effective functioning of ground-penetrating radar. The presented method of enhancing isolation by cavity-backing a rectangular microstrip antenna and keeping them separated at an optimum gap yielded high isolation of 52.6 dB. The prototype radar, using the enhanced isolation antennas, demonstrates the capability to detect up to the depth of 65 cm for a circular steel target of radius 12.5 cm buried in loose semi-dry pebbled soil. The prototype radar is sensitive enough to detect a plastic box, a small bunch of wire, a book (paper) buried in soil and a wooden slab and a steel scale buried in a sandpit.
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Conference papers on the topic "Wave-to-wire"

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Zha, Rongyu, Andrew Hillis, Jos Darling, and Andrew Plummer. "Wave-to-Wire Simulation of Hydraulic Wave Energy Converter." In ASME/BATH 2017 Symposium on Fluid Power and Motion Control. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/fpmc2017-4294.

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This paper introduces the simulation of a wave-to-wire (W2W) wave energy converter (WEC) design that includes the complete system from the original wave capture device to the final generated electricity supplied to the grid. Instead of designing the sub-systems separately, this holistic approach allows the optimization of the WEC performance. The Energy Capture Device (ECD), the absorption stage, is based on heaving theory, namely a point absorber. The Power Take-Off (PTO) system, the transmission stage, is based upon a hydrostatic transmission. Lastly the WIRE side, the generation stage, is achieved by connecting a three-phase round-rotor synchronous generator driven by the hydraulic motor from the PTO system. The control strategy primarily aims to meet the criteria of the grid while extracting as much energy from the waves as possible.
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Beattie, W. C. "From wave to wire - control techniques for acceptable power." In IEE Colloquium on Wave Power: An Engineering and Commercial Perspective. IEE, 1997. http://dx.doi.org/10.1049/ic:19970558.

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Castellini, L., M. D'Andrea, M. Martini, G. Alessandri, D. Coiro, F. De Luca, G. Calise, G. Troise, and A. Vogler. "Experimental tests on a wave-to-wire pivoted system for wave energy exploitation." In 2017 6th International Conference on Clean Electrical Power (ICCEP). IEEE, 2017. http://dx.doi.org/10.1109/iccep.2017.8004731.

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Hossain, Jakir, Sarder Shazali Sikander, and Eklas Hossain. "A wave-to-wire model of ocean wave energy conversion system using MATLAB/Simulink platform." In 2016 4th International Conference on the Development in the in Renewable Energy Technology (ICDRET). IEEE, 2016. http://dx.doi.org/10.1109/icdret.2016.7421492.

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Clemot, Helene, Florian Dupriez-Robin, Aurelien Babarit, and Tuan Quoc Tran. "A wave-to-wire chain modeling and command for a direct drive wave energy converter." In 2017 Twelfth International Conference on Ecological Vehicles and Renewable Energies (EVER). IEEE, 2017. http://dx.doi.org/10.1109/ever.2017.7935941.

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Garcia-Rosa, Paula B., Raymundo E. Torres-Olguin, Joao Cruz, and Salvatore D'Arco. "A wave-to-wire model for grid integration studies of oscillating-body wave energy converters." In 2022 IEEE 31st International Symposium on Industrial Electronics (ISIE). IEEE, 2022. http://dx.doi.org/10.1109/isie51582.2022.9831637.

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Clemot, Helene, Aurelien Babarit, Florian Dupriez-Robin, and Tuan Quoc Tran. "Development of a wave-to-wire model to calculate flicker caused by wave energy converters and study power quality." In 2017 IEEE Manchester PowerTech. IEEE, 2017. http://dx.doi.org/10.1109/ptc.2017.7981020.

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Huang, Yu-Cheng, Chen-Pang Chao, Ming-Jie Gao, Yi-Wen Chiu, Chang-Fa Yang, Shih-Chieh Chen, Jaisy Kung, and George Wei. "A Low-Profile RF Wire-to-Board Connector Design for Millimeter Wave Applications." In 2020 IEEE USNC-CNC-URSI North American Radio Science Meeting (Joint with AP-S Symposium). IEEE, 2020. http://dx.doi.org/10.23919/usnc/ursi49741.2020.9321653.

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Dewhurst, Tobias, and Seshadri Sivakumar. "Wave-to-Wire Modeling and Simulation of a Wave Energy Converter for Off-Grid and Micro-Grid Applications." In OCEANS 2018 MTS/IEEE Charleston. IEEE, 2018. http://dx.doi.org/10.1109/oceans.2018.8604701.

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Karkar, Ammar, Nizar Dahir, Ra'ed Al-Dujaily, Kenneth Tong, Terrence Mak, and Alex Yakovlev. "Hybrid wire-surface wave architecture for one-to-many communication in networks-on-chip." In Design Automation and Test in Europe. New Jersey: IEEE Conference Publications, 2014. http://dx.doi.org/10.7873/date.2014.287.

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