Defining requirements - Type and size of batteries

---

 Transitioning to battery propulsion improves efficiency, but navigating the complex options requires expert guidance. Since no single solution fits every vessel, we analyze specific load profiles for fleets ranging from tugboats to cruise ships. Our approach ensures you avoid costly mismatches by identifying the exact energy storage system your operation demands. We help you move beyond generic solutions to find the system that fits your specific mission 

 We determine if your vessel is power-intensive or energy-intensive by calculating critical power-to-energy ratios. While ferries often demand high power for fast charging, cruise ships usually prioritize energy density for longer operational durations. By decoupling charging capabilities from energy capacity, we accurately size your system to prevent expensive oversizing. This precise modeling ensures your power plant handles your specific operational cycles effectively 

 We match your operational profile to the optimal lithium-ion chemistry using a data-driven framework. For high-power, frequent-cycle vessels, we often recommend robust solutions like Lithium Titanate Oxide (LTO) batteries. Conversely, we target Lithium Iron Phosphate (LFP) or Nickel Manganese Cobalt (NMC) for energy-intensive applications like yachts and cruise ships. This ensures the chemistry selected aligns perfectly with your vessel's unique charging and discharging needs. 

 Our specialized decision tree categorizes the best battery chemistries based on your specific vessel type and functional roles. We optimize for critical constraints like weight, volume, and cost to provide a clear, feasible path forward. This structured method removes guesswork from early-stage design and facilitates smarter procurement decisions.