modelling

A Numerical Analysis of the Response and Air Gap Demand for Semi-Submersibles
Adi Kurniawan, Zhenhua Huang, Jing Li, Chunrong Liu, Xikun Wang, Zhiyong Hao, Soon Keat Tan, Edwin Nah
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Responses of a Floating Rectangular Caisson to Regular Waves: A Comparison of Measurements with Time-Domain and Frequency-Domain Simulations
Zhenhua Huang, Chunrong Liu, Adi Kurniawan, Soon Keat Tan, Edwin Nah
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Wave Amplification and Air-gap Response under a Multi-column Platform
Jing Li, Soon Keat Tan, Zhenhua Huang, Adi Kurniawan
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Modelling and optimisation of the M4 wave energy converter
The M4 is a multi-float wave energy converter developed by Professor Peter Stansby from the University of Manchester. This project seeks to develop a numerical tool to optimise the design of the device. The tool couples a dynamic model of the device and a boundary element software.
Modelling and optimisation of the M4 wave energy converter
Modelling and simulation of parametric resonance in wave energy converters using a simplified model
Parametric resonance is a nonlinear phenomenon in which an oscillating system responds at a frequency different from the excitation frequency. Some wave energy converters are prone to this phenomenon, which can degrade their performance. The aim of this project is to develop fast, simplified models to capture this nonlinear response in the time domain.
Modelling and simulation of parametric resonance in wave energy converters using a simplified model