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Insights
From cell chemistry to vessel operations, find practical content to help you make smarter decisions in maritime electrification.
Every battery system relies on a Battery Management System (BMS). In a maritime application, the BMS is critical as it ensures the battery operates safely, delivers stable performance, and reaches its intended lifetime without premature aging or failures.
Improving energy efficiency and reducing fuel consumption have become some of the most critical challenges for shipowners and operators, driven by increasingly stringent regulatory requirements. For larger, ocean-going vessels, batteries can perform several important functions that reduce fuel consumption and improve overall energy efficiency. These functions typically include peak shaving, spinning reserve, energy harvesting, and backup power (UPS), as described below.
A common misconception surrounding LTO-based marine battery systems is that they are heavier and require more space than alternative solutions. This perception largely stems from evaluating batteries at cell level, rather than at system level. When assessed from a system perspective, LTO chemistry can in fact enable battery systems that are both smaller and lighter.
Battery safety is a key topic in maritime electrification. Batteries operate in demanding environments with high power peaks, rapid charging, vibration, humidity, saltwater exposure, and tight onboard spaces. Because of this, safety must be evaluated at the system level, and always with the operational profile in mind.
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