wave energy

WAVE ENERGY INTEGRATION COSTS SHOULD COMPARE FAVORABLY TO OTHER ENERGY SOURCES

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Large-scale wave energy systems developed in the Pacific Northwest should be comparatively steady, dependable and able to be integrated into the overall energy grid at lower costs than some other forms of alternative energy, including wind power.

Those are the findings, published in the journal Renewable Energy, that confirm what scientists have expected – that wave energy will have fewer problems with variability than some energy sources and that by balancing wave energy production over a larger geographic area, the variability can be even further reduced.

The variability of alternative energy sources is one factor that holds back their wider use – if wind or solar energy decreases and varies widely, then some other energy production has to back it up, and that adds to the overall cost of energy supply.

Read more here: http://www.eurasiareview.com/08012015-wave-energy-integration-costs-compare-favorably-energy-sources/

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New method of harvesting wave energy

1 Jan 2015  |  United Kingdom

The company Alabatern Wave Energy from Scotland has created WaveNET, an offshore array-based wave energy converter that uses the motion of waves to generate electricity. The floating structure of the WaveNET is flexible in all directions, and capable of capturing power from the ocean regardless of wave direction and array orientation.   WaveNET arrays are formed by interconnecting the unique SQUID generating units. The first development scale of WaveNET is Series-6, designed to operate in in a minimum water depth of 20m and to generate electricity in waves with heights ranging from 0.3m to 6m. WaveNET’s strongest features come from being designed and engineered from the start to function as an array of linked units. Each SQUID unit comprises a hollow central riser tube connected to 3 buoyancy floats by linking arms. The connections between each of these components is made by 6 identical fully articulated pumping modules. The buoyancy floats also have hollow structures, allowing them to house the PTO (Power take-off unit) along with other components for communications and hydraulic operation.   The PTO module comprises a hydraulic motor, electrical generator, control apparatus and communications. A WaveNET array will contain a number of PTO modules – the optimum quantity depends on the available energy at the site, the number of units in the array and the degree of redundancy required.     The most significant benefits of this array-based approach to wave energy come from improvements in power yield and potentially dramatic reductions in project costs. By increasing the length of the array WaveNET can capture more power from longer waves, increasing the width allows it to capture more energy from lower density sites. When interconnected as an array, WaveNET’s movement is like a three-dimensional Mexican wave: the ocean’s energy pushes and pulls the array’s structure; each SQUID unit’s articulated joints flex, absorb some of the wave’s energy, with any unabsorbed energy passing to the next unit, all the way through the array. This unique design allows the array to respond to the full orbital motion of the waves, from any direction, and allows power capture from 5 of the 6 elements of wave energy: pitch, roll, heave, surge and sway.
Read more at: http://www.energyharvestingjournal.com/articles/new-method-of-harvesting-wave-energy-00007218.asp?sessionid=1