Abstract In Reliability-based Multidisciplinary Design Optimization (RBMDO), the key
performance functions of wind turbine are usually implicit, which means the performance …

Offshore wind energy has become a key strategy in the global transition to sustainable and
renewable energy. This emphasis has significantly propelled the advancement of offshore …

In recent years, offshore wind power generation technology has developed rapidly around
the world, making important contributions to the further development of renewable energy …

Reliability-based design optimization (RBDO) integrates various uncertainties into the
design optimization process, offering a more realistic and robust approach compared to …

In this study, a methodology to determine the target gas supply reliability of the natural gas
pipeline system based on cost-benefit analysis is proposed. In the methodology, an …

The development of large-scale wind turbines is challenged by loads, mass, and cost
growth, and more flexible blades that impact power and tower clearance. Further, the long …

Abstract Metaheuristic Optimization Techniques and Artificial Neural Networks (ANNs) have
proven to be useful tools to find the best design solutions for different structural systems …

The tower plays a crucial role in wind turbine systems. However, the design and optimization
of configuration parameters have traditionally been lacking in intelligent methods. This study …

Abstract Offshore Wind Turbine (OWT) support structures are subjected to hostile
environments, defined by highly stochastic loads and complex soil-structure interaction, and …

An efficient reliability-based design optimization method for the support structures of
monopile offshore wind turbines is proposed herein. First, parametric finite element analysis …