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On seismic protection of wind turbine foundations founded on liquefiable soils

Juntae Seong, Stuart K. Haigh, Spg Madabhushi, R. Shrivastava, Ravikant Veluvolu, Prashanta Padhy

2022Soil Dynamics and Earthquake Engineering15 citationsDOIOpen Access PDF

Abstract

Wind turbine structures can be susceptible to damage from earthquake loading due to large overturning moments at the foundation level. As the wind energy market expands to seismically active parts of the world, it becomes important to evaluate the seismic behaviour of these structures. Especially, earthquake-induced liquefaction can be important when wind farms are located on sites with marginal soil conditions such as loose, saturated sands or non-plastic silts. Reduction of stiffness during liquefaction can cause excessive foundation settlement and/or rotation. Thus, suitable mitigation methods should be investigated. This paper discusses the seismic behaviour of the wind turbine on liquefiable soil and the effectiveness of the stone column-based liquefaction mitigation method. Two geotechnical centrifuge tests were conducted with and without stone columns for a model wind turbine on a circular raft foundation. The results show that stone columns can significantly reduce both the settlement and rotation of the raft.

Topics & Concepts

Foundation (evidence)CentrifugeLiquefactionGeotechnical engineeringTurbineSettlement (finance)Soil liquefactionWind powerLeveeGeologyStiffnessEngineeringStructural engineeringPhysicsHistoryNuclear physicsElectrical engineeringPaymentWorld Wide WebMechanical engineeringComputer scienceArchaeologyGeotechnical Engineering and Soil StabilizationGeotechnical Engineering and Soil MechanicsGeotechnical Engineering and Underground Structures
On seismic protection of wind turbine foundations founded on liquefiable soils | Litcius