The optimized design of the Octopus Series ensures the battery modules individually store a large amount of energy, without the entire system becoming to heavy or large.

In our unique cell-stack a solution is incorporated that prevents cell-to-cell propagation in the unlikely event of cell overheating. The other cells won’t overheat due to this solution, which prevents greater damage to the system.

Our modular system can be designed to meet your specific needs. We will have a look at your requirements and the energy demand, and based on that information, we will suggest a capacity and system configuration. Octopus Series systems can easily be used for vessels requiring over multiple MWh of energy.

Different elements are integrated into the battery systems design to ensure optimised ventilation. The different elements contribute to consistent and efficient temperature regulation during operation.

Our exhaust systems is designed to safely guide the gasses to a safe zone outside the ship in the unlikely event of a thermal runaway. This means the battery room is safe to enter. The off-gas system is integrated into the rack design, saving space in the battery room.

Thanks to our customizable, lightweight rack solutions, Octopus® battery storage systems fit into virtually every battery room.

With average maritime use, lifetime expectancy can exceed 10 years. Our Lithium iron phospate (LFP) cells are a market premium, quality tested before fitted inside the module. With our knowledge and database, we can calculate the performance and expected life time according to the intended use aboard the vessel.

The Voltage controls the energy flow. High Voltage systems can easily move energy in an efficient manner and power large equipment or fulfill high energy demands.

The higher the energy density, the longer a battery can run before needing to be recharged—without increasing the size or weight of the battery. This is great for applications where downtime and weight are critical.