The utilisation of wind power in buildings has gained significant interest, but deploying wind
turbines in built environments presents unique challenges due to highly turbulent wind …

In order to enhance simulation capabilities of existing numerical tools for the design of
floating offshore wind turbines (FOWTs), this study has developed and implemented a …

In this study dynamic responses of a 10 MW offshore wind turbine supported by a multi-body
floating platform that consists of a wide cylindrical platform and a cylindrical ballast body …

An integrated floating energy system consisting of different types of energy devices is an
ideal option for reducing the levelized cost of energy by enhancing the power production …

The twist angle distribution (TAD) of a wind turbine blade determines its efficiency in terms of
electricity production. As the blade is normally deployed in dynamic wind environments …

The physical model tests of floating offshore wind turbines (FOWTs) in wave basins cannot
simulate the aerodynamic loads accurately. The real-time hybrid model test in wind tunnel …

Integration of multiple offshore renewable energy converters holds immense promise for
achieving cost-effective utilization of marine energy. Integrated Floating Wind-Current …

The improved aerodynamic design of a horizontal axis small‐scale wind turbine blade is
crucial to increasing the efficiency and annual energy production of the turbine. One of the …

Small horizontal axis wind turbines (HAWTs) are increasingly used as source of energy
production. Based on this observation, the blade element momentum theory (BEMT) is …

This study investigates the dynamics and environmental response of a novel design
involving multiple floating offshore wind turbines on a single large-scale platform (MFOWT …