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Peng Chen

Software-In-the-Loop method to predict the global dynamic responses of full-scale floating wind turbines by artificial neural network.

Email: [email protected]

Project supervisors

Project description

Floating offshore wind turbines (FOWTs) can generate electricity in water depths which aren't feasible for fixed-foundation turbines.

My research will accurately predict and validate the full-scale global dynamic responses of the FOWT system.

Methodology and objectives

I will combine DARwind and ANN to accurately simulate the experiment (SILANN).

I will conduct at least two model tests with different scale ratios. I will propose a method that can describe the scale relationship between two models by SILANN.

I will then apply the scale relationship of SILANN between model and prototype.

Results

I have conducted a literature review of the hybrid FOWT basin experiment.

I have run numerical simulation using the inhouse program DARwind, according to OC3 Hywind.

I have created the ANN model in MATLAB ANN tools to validate the numerical simulation results of the basin model test.

I have prepared a workshop paper for the 11th International Workshop on Ship and Marine Hydrodynamics.

I will build the Software-in-the-Loop concepts by extracting weight thresholds. I will transfer functions in ANN into DARwind simulation.

I will verify this method using code-to-code and code-to-experiment methods.

I will carry out a different scale basin model test to find a relationship between two models.

I will create extrapolation, which can apply the SLANN approach to full-scale FOWTs.

Interests

Floating wind, Renewable energy, Deep learning

Qualifications

MSc in Naval Architecture from Newcastle University