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Offshore wind turbines
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New Paper Published (Soil Dynamics and Earthquake engineering) - An innovative cyclic loading device to study the long term performance of offshore wind turbines

New Paper Published (Soil Dynamics and Earthquake engineering) - An innovative cyclic loading device to study the long term performance of offshore wind turbines
A new paper published in the journal of Soil Dynamics and Earthquake Engineering. VJ Tech in collaboration with Surrey university to design and produce an innovative cyclic loading device to simulate multiple force acting on a wind turbine. 

Dynamic Soil Structure of Offshore Wind Turbines and long term performance prediction: Linking scaled model test results to prototype prediction via element tests

Dynamic Soil Structure of Offshore Wind Turbines and long term performance prediction: Linking scaled model test results to prototype prediction via element tests
In an effort to reduce the CO2 emissions and cover its energy needs, UK has turned to renewable sources of energy and more specifically to offshore wind power harvesting. Offshore Wind Farming is considered to be one of the most reliable ways to produce energy, because: a) the average wind speed over sea is generally higher and more consistent than onshore, making the offshore wind farming more efficient b) the noise and vibrations from the wind turbines do not have any impacts on the environment or human activities due to their distance from land (more than 10km), their size can be twice the size of the onshore turbines and c) wave and current loading can be harvested as well. Also the wind turbine technology is relatively more matured those other forms of renewables.

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