Kokam SLPB98188216P Drones Safety and risk management - particularly around overheating and thermal runaway during flight.
Explore the Kokam SLPB98188216P cell for drones, designed for safety and risk management against overheating and thermal runaway during flight.
Value Propositions
Pouch form factor with nominal capacity of 111.0 Wh and 30.0 Ah.
Volumetric energy density of 257 Wh/l, around median vs database.
Gravimetric energy density of 128 Wh/kg, below median vs database.
Maximum continuous discharge of 600 A, top-quartile vs median 30 A.
Volumetric power density of 5148 W/l, among the highest in database.
About the Cell
The Kokam SLPB98188216P is a pouch cell designed specifically for drone applications, offering a nominal capacity of 111.0 Wh and 30.0 Ah. Its volumetric energy density of 257 Wh/l positions it around the median compared to other cells in the database, while its gravimetric energy density of 128 Wh/kg is below the median. Notably, the cell boasts a maximum continuous discharge rate of 600 A, placing it in the top-quartile compared to the median of 30 A. Additionally, its volumetric power density of 5148 W/l is among the highest in the database, making it an excellent choice for high-performance drone applications.
Application Challenges
In the context of drones, safety and risk management are paramount, particularly regarding overheating and thermal runaway during flight. The ability to manage thermal conditions is crucial for ensuring the reliability and safety of drone operations. High energy density is essential for extending flight times, while effective thermal management is necessary to prevent failures. The Kokam SLPB98188216P cell addresses these challenges by providing a robust discharge capacity and thermal performance, enabling drones to operate safely in demanding environments.
Why this Cell
The Kokam SLPB98188216P cell is ideal for drone applications due to its impressive specifications. With a maximum continuous discharge of 600 A, it is in the top-quartile compared to the median of 30 A, ensuring that it can handle high power demands during flight. Its volumetric energy density of 257 Wh/l, while around the median, still provides sufficient energy for long endurance missions. The cell's design prioritises safety, making it suitable for applications where overheating and thermal runaway are concerns, thus enhancing overall mission reliability.
How Model-Based Design Helps
Simulation and model-based design play a critical role in optimising the performance of the Kokam SLPB98188216P cell for drone applications. By modelling load profiles, thermal behaviour, and voltage responses, engineers can predict how the cell will perform under various conditions. This approach allows for the identification of potential overheating issues and enables the selection of the best cell for specific mission profiles. By simulating different scenarios, such as high discharge rates and varying temperatures, designers can ensure that the cell meets the rigorous demands of drone operations, ultimately leading to safer and more efficient flights.
