GPU-Accelerated Simulation for Assessing Ship Seaworthiness in Diverse Conditions
Résumé
Ship seaworthiness is a critical factor in maritime
engineering, ensuring vessels can navigate safely and efficiently
across diverse environmental conditions. This project employs
advanced Computational Fluid Dynamics (CFD) calculations,
coupled with GPU acceleration, to comprehensively assess ship
seaworthiness. Through meticulous CFD simulations, the complex fluid-structure interactions between ships and water bodies are modeled, enabling precise predictions of hydrodynamic
forces, fluid flow patterns, and stability parameters crucial for
ship performance evaluation. The primary objective is to deepen
understanding of ship behavior under various environmental
scenarios, including different sea states, vessel speeds, and hull
designs. By conducting detailed CFD simulations accelerated by
GPUs, potential areas for enhancing ship designs, propulsion
systems, and operational strategies can be identified, significantly
improving seaworthiness and operational efficiency. Additionally,
this approach aims to establish a robust framework for continuous improvement in maritime engineering practices, contributing
to safer and more efficient maritime operations globally. The
integration of advanced turbulence models and machine learning
techniques further enhances the predictive capabilities of our
simulations, offering new insights into optimal ship design and
performance under challenging conditions.
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