IEEE Organizations related to Wave Power

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Most published Xplore authors for Wave Power

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Xplore Articles related to Wave Power

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Foreword

2014 International Renewable and Sustainable Energy Conference (IRSEC), 2014

Sustainable energy is the sustainable provision of sustainable energy development that meets the needs of the present without compromising the ability of future generations to meet their needs. Technologies that promote sustainable energy are mainly based on renewable energy sources, such as hydroelectricity, solar energy, wind energy, wave power, geothermal energy, bio-energy, tidal power and also technologies designed to improve ...


Evaluation of the wave energy density on the Sicilian coast

OCEANS 2016 - Shanghai, 2016

In this article the wave energy density of the northern Sicilian coasts is evaluated and is used to evaluate the producibility of a wave nergy converter to be installed in an area in the north west part of Sicily. In particular, the objective of the study is the evaluation of a potential installation in an area between Trapani and Palermo, ...


Ocean wave power potential assessment along the South Coast of Central Java Island Indonesia

OCEANS 2017 - Anchorage, 2017

Wave power potential assessment in the Indian Ocean along the South Coast of Central Java Island in Indonesia was conducted using 15-year hindcasting procedure through MIKE 21 Spectral Wave Software. A set of wind data with 0.125° spatial resolution and bathymetry were used to construct the model. The model was validated with experimental data from a observation buoy provided by ...


The structure design and hydrodynamic study of the multi-level overtopping wave power device

OCEANS 2017 - Aberdeen, 2017

To adopt the wave condition of the East China Sea, a new kind of the overtopping wave power device has been designed, and it has a multi-level ramp to capture more wave energy. According to the experimental statistics and the simulation data, the parameters of the structure were confirmed. Then, the simulation experiment was carried out through the Computational Fluid ...


Single mode dispersive waves and soliton microcomb dynamics

2017 Conference on Lasers and Electro-Optics (CLEO), 2017

Dispersive-wave scattering from dissipative Kerr solitons is induced by spatial-mode interactions within a high-Q micro-resonator. A limiting case, single-mode dispersive waves, are observed and their interaction with the soliton causes hysteretic behavior.


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Educational Resources on Wave Power

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IEEE.tv Videos

IMS 2014:Active 600GHz Frequency Multiplier-by-Six S-MMICs for Submillimeter-Wave Generation
D-Wave Quantum Computer: Technology Update - Fabio Altomare - ICRC San Mateo, 2019
CASS Lecture by Dr. Chris Hull, "Millimeter-Wave Power Amplifiers in FinFET Technology"
Micro-Apps 2013: Designing an ETSI E-Band Circuit for a MM Wave Wireless System
From THz imaging to millimeter-wave stimulation of neurons: Is there a killer application for high frequency RF in the medical community? (RFIC 2015 Keynote)
5G Millimeter Wave Cellular Systems - Sundeep Rangan - IEEE Sarnoff Symposium, 2019
Microapps: Enabling Optimized Performance and Lower TCO (Total Cost of Ownership) with Infineon mm-Wave Transceiver
Millimeter Wave Mobile Communications for 5G Cellular: It Will Work!
ON-CHIP VOLTAGE AND TIMING DIAGNOSTIC CIRCUITS
Testing 5G: OTA and the Connectorless World - IMS 2017
Solving Sparse Representation for Image Classification using Quantum D-Wave 2X Machine - IEEE Rebooting Computing 2017
IMS 2014:Flip Chip Assembly for Sub-millimeter Wave Amplifier MMIC on Polyimide Substrate
IEEE Magnetics Distinguished Lecture - Alison B. Flatau
Millimeter-Wave Bandpass Filter Using High-Q Conical Inductors and MOM Capacitors: RFIC Interactive Forum
Brooklyn 5G Summit 2014: Dr. Robert Heath on Coverage and Capacity Analysis of Dense Millimeter Wave Cellular System
5g Cellular: It Will Work!
Brooklyn 5G - 2015 - Michael Ha - Expanding Use of the Millimeter Wave Spectrum with 5G
IEEE Magnetics Distinguished Lecture - Mitsuteru Inoue
IMS 2012 Special Sessions: The Evolution of Some Key Active and Passive Microwave Components - Richard True
APEC Speaker Highlights: Robert White, Chief Engineer, Embedded Power

IEEE-USA E-Books

  • Foreword

    Sustainable energy is the sustainable provision of sustainable energy development that meets the needs of the present without compromising the ability of future generations to meet their needs. Technologies that promote sustainable energy are mainly based on renewable energy sources, such as hydroelectricity, solar energy, wind energy, wave power, geothermal energy, bio-energy, tidal power and also technologies designed to improve energy efficiency.

  • Evaluation of the wave energy density on the Sicilian coast

    In this article the wave energy density of the northern Sicilian coasts is evaluated and is used to evaluate the producibility of a wave nergy converter to be installed in an area in the north west part of Sicily. In particular, the objective of the study is the evaluation of a potential installation in an area between Trapani and Palermo, which are the largest cities in the north west part of Sicily. In particular in this research, the wave energy density of Sicily has been analyzed by using an analysis of wave data carried out in a 10-year period, using the measurements of buoyant of National Wave measuring System (RON - Rete Ondametrica Nazionale). The analysis shows that the north- western coasts of Sicily have a wave energy density ranging between 2.5 and 6.5 kW/m.

  • Ocean wave power potential assessment along the South Coast of Central Java Island Indonesia

    Wave power potential assessment in the Indian Ocean along the South Coast of Central Java Island in Indonesia was conducted using 15-year hindcasting procedure through MIKE 21 Spectral Wave Software. A set of wind data with 0.125° spatial resolution and bathymetry were used to construct the model. The model was validated with experimental data from a observation buoy provided by the Agency for the Assessment and Application of Technology (BPPT) in Indonesia. The buoy was located at -8.1364° East Latitude and 110.547° South Longitude. The model validation showed a minor average error, which is approximately 0.042 %. The mean wave power intensity from the 15-year assessment had average value of 8.384 kW/m and maximum value of 24.652 kW/m. Based on monthly analysis, the optimum mean wave power intensity appeared during the dry season period, which is in the months of July to September, with average values of around 15 kW/m. Furthermore, a spatial analysis was conducted by finding optimum locations for wave energy converter (WEC) placement, with concern to wave power intensity, distance from the land, and power demand. Two major areas are selected, Yogyakarta and Penyu Bay conastlines. The most optimum candidate for WEC is located at 8.079190° East Latitude and 110.390709° South Longitude with mean wave power intensity and mean significant wave height reached up to 20 kW/m and 2.04 m, respectively.

  • The structure design and hydrodynamic study of the multi-level overtopping wave power device

    To adopt the wave condition of the East China Sea, a new kind of the overtopping wave power device has been designed, and it has a multi-level ramp to capture more wave energy. According to the experimental statistics and the simulation data, the parameters of the structure were confirmed. Then, the simulation experiment was carried out through the Computational Fluid Dynamics (CFD) software. The geometrical model was built by the Computer Aided Design (CAD) software. Analyzing the result of the test, we found the relationship among the wave period, the wave height and the hydraulic efficiency. Obvious improvement of the overtopping discharge was founded when it was compared with the single-level device.

  • Single mode dispersive waves and soliton microcomb dynamics

    Dispersive-wave scattering from dissipative Kerr solitons is induced by spatial-mode interactions within a high-Q micro-resonator. A limiting case, single-mode dispersive waves, are observed and their interaction with the soliton causes hysteretic behavior.

  • Design and Research of Point Absorber Wave Power Converter

    This paper mainly focuses on the feature that Wave Power Converter has poor power quality, and combines with the technology of wave power converter now. A wave power controller based on a point absorber Wave Power Converter is designed. The controller is mainly composed of three-phase bridge rectifier and Buck-Boost chopper circuit and it takes respective measures to solve unstable three-phase voltage of the Wave Power Converter as it seeks to make it become a stable direct current. A large number of simulation experiments on the land show that the controller is feasible, which builds the theoretical and experimental foundations for the practical application of point absorber Wave Power Converter. It also provides a solution to the problem of poor quality of Wave Power Converter.

  • Design and fabrication of wave energy power plant using oscillating water column technique

    Fossil Fuels are considered the major sources to fulfill the world energy demand but their harmful effect on our environment are the main source of concern. So it is the need of time to utilize the such energy resources which are sustainable and environment friendly. As we know that more than seventy percent portion of earth is covered by the ocean. This source of energy is present in the form of ocean's water, the air above the ocean and the land beneath them. This paper presents a technique to extract the energy from ocean waves using oscillating water column chamber and self-rectifying impulse turbine. It also gives the brief introduction of oscillating water column used in the extraction of wave energy. Designing of oscillating water column is accomplished using Pro Engineer and CREO soft wares. The efficiency of this fabricated wave power plant is 35% and the rpms of shaft are 200. The research in this area will provide decentralized, sustainable and chemical emission free energy.

  • OWC wave power plants capture chamber modelling

    The European Union is promoting the use of renewable energies as a path to fight global warming. Among them are diverse ocean energies and in particular, Oscillating Water Column (OWC)-based wave energy stands as one of the most promising technologies. An OWC device is basically composed by a capture chamber with a turbo-generator module attached to it. Although the study of the induction power module can be considered a well-known matter, the control- oriented modelling of the capture chamber composes still an open issue. In this work, an analytical model of the OWC chamber is developed and numerically implemented. The proposed model is then successfully tested and validated by means of experimental results for the particular case of Mutriku OWC wave power plant, affording excellent results.

  • Feasibility study of ocean wave energy for wave power plant at Sibolga-Tapanuli Tengah

    Ocean wave is one of the potential renewable energy sources that can prospectively be developed into Wave Power Plant. Our study aims to analyze the feasibility of sea wave power plant in the area Sibolga-Tapanuli Tengah which most of the area is ocean and directly adjacent to the Indian Ocean. Water Colum oscillating system (OWC) and Ocean Surface Wave (OSW) are both two methods of converting ocean wave energy into electrical energy. Based on our analysis, the waves with a height of 0.1 to 0.75 meters can generate electricity with minimum P-density = 11.26 Watt / m 2 and a maximum P-density = 213, 18 Watt / m2. Furthermore, we found the largest output from each unit was able to be raised by using the method of Ocean Surface Wave (OSW) with Pout = 464.31 Kilowatt (Tapered Channel system) and Pout = 128.8 Kilowatt (Power Buoy system). In other hands, by using oscillating Water Colum (OWC) method, it was found that Pout = 54.65 Kilowatts. This result emphasized that the physical condition of the coastal marine area of Sibolga are appropriate for Sea Wave Power Plant Power systems by applying Tapered Channel system for optimization.

  • Wave power measurements in the Celtic Sea using HF radar

    It is well established that HF radar systems located on the coast can measure surface currents from close to the coast to more than 100km offshore. They can also be used to simultaneously measure the ocean wave directional spectrum. Thus current and wave power and other parameters relevant to the development of marine renewables can be measured. Wave measurements in the Celtic Sea using a Pisces HF radar system in 2003-2005 are presented. Good agreement with buoy data is demonstrated. The data are used to show that the wave power resource is variable in season, location and in direction with higher powers observed in Autumn but more directional variability in Winter.



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