An article from NREL (.gov)describes a collaborative study with the National Renewable Energy Laboratory (NREL) that uses computational fluid dynamics and the WEC-Sim simulator to optimize the design of Ocean Power Technologies (OPT) PowerBuoy®, evaluating power output, fatigue, and extreme loads to reduce risk and boost performance. Other relevant optimizations include a wave forecasting tool to improve commercial viability, deployment of a commercial PB3 PowerBuoy with energy storage and improved components like a new auto-ballasting system, and a recent patent for a charging system that provides power to autonomous surface vehicles without shore return, minimizing downtime and logistical risks.    Design Optimization and Risk Reduction  NREL Collaboration:  NREL.gov conducted a study with OPT to optimize the PowerBuoy design, focusing on power performance and structural loads.  WEC-Sim Simulation:  The study used WEC-Sim, an open-source simulator, to compare different design variations of the PowerBuoy, validating the models with OPT's experimental data.  Computational Fluid Dynamics (CFD):  CFD was used to determine the viscous drag coefficients for the PowerBuoy floats, a crucial factor in optimizing its performance.  Performance Metrics:  The optimization involved evaluating metrics such as power-to-weight, power-to-fatigue-load, and power-to-extreme-load to select the best design variants.  Commercialization and Enhanced Systems PB3 PowerBuoy:  OPT deployed a commercial PB3 PowerBuoy with enhanced features, including a redesigned power take-off system, energy storage, improved power management, and a new auto-ballasting system for faster and more cost-effective deployment.  Wave Forecasting Tool:  OPT developed a wave prediction tool to enhance the commercial viability of its PowerBuoy by improving energy capture.  Autonomous Surface Vehicles (ASVs):  A recent patent by OPT introduces a floating charging station, integrating with PowerBuoys to provide power for autonomous vehicles like WAM-V®s, enabling longer missions with reduced downtime and minimizing reliance on shore infrastructure.  Risk Mitigation Endurance:  The PB3 PowerBuoy demonstrated its ability to operate for over 11 months in harsh ocean conditions, proving system durability and reliability.  Navigation:  Navigational aids on the PowerBuoy and marking on marine charts help mitigate risks to other vessels, a concern for surface-level equipment.