This paper deals with modeling the dynamics of the ship-wind turbine system in order to optimize power generation and ensure safe navigation. The focus is on developing mathematical models describing the interaction of wind forces, turbine performance and ship dynamics. Numerical simulations are used to investigate the effects of varying wind conditions, turbine design and navigation parameters on energy efficiency. Control strategies are also developed to maximize the energy output of wind turbines while maintaining stability and safety of ship navigation. Model validation is performed through comparative analysis with experimental data or cases from existing wind-assisted ship propulsion systems. The aim of the study is to provide valuable practical recommendations for the implementation of wind energy technologies in maritime operations, contributing to sustainable development and environmental standards in shipping.