EVE Energy 30P Mission feasibility assessment - asses what missions or use cases are possible or not using a go/no-go decision using simulation.
Explore the EVE Energy 30P cell for mission feasibility assessments in UAV applications, optimising performance and reliability for drone operations.
Value Propositions
Cylindrical 18650 form factor for versatile applications.
Nominal capacity of 10.44 Wh and 2.9 Ah for efficient energy storage.
Volumetric energy density of 598 Wh/l, top-quartile vs median.
Gravimetric power density of 2,250 W/kg, among the highest in database.
Maximum continuous discharge of 30 A, top-quartile vs median.
About the Cell
The EVE Energy 30P cell is designed in a cylindrical 18650 form factor, providing a nominal capacity of 10.44 Wh (2.9 Ah). With a volumetric energy density of 598 Wh/l, it ranks in the top-quartile compared to the database median of 542 Wh/l, making it an excellent choice for applications requiring high energy storage in compact formats. The gravimetric energy density stands at 218 Wh/kg, which is around the median of 210 Wh/kg, ensuring a lightweight solution for UAVs. Additionally, the cell boasts a volumetric power density of 6,186 W/l, which is among the highest in the database, facilitating rapid energy delivery when needed. The maximum continuous discharge current of 30 A positions it in the top-quartile, allowing for robust performance in demanding scenarios.
Application Challenges
In the context of EVTOL and mission feasibility assessment, the EVE Energy 30P cell addresses critical challenges in UAV operations. The ability to assess what missions or use cases are feasible using simulation is paramount, especially in environments where reliability is crucial. The high energy density of the 30P cell supports extended flight times, which is essential for long endurance drone batteries. Furthermore, the lightweight design aids in optimising payload capacities, ensuring that drones can perform effectively without being hindered by battery weight. Accurate predictions of state of charge (SOC) and thermal management are vital to prevent overheating and ensure safe battery operation, particularly in extreme environments.
Why this Cell
The EVE Energy 30P cell is particularly suited for EVTOL applications due to its impressive specifications. With a maximum continuous discharge rate of 30 A, it is in the top-quartile compared to the median of 30 A in the database, allowing for high discharge rates necessary for UAV operations. The volumetric energy density of 598 Wh/l not only supports long endurance missions but also ensures that the cell can deliver reliable performance under various load conditions. The lightweight design, with a mass of only 48 g, contributes to improved UAV mission endurance, making it an ideal choice for custom UAV battery packs. The cell's performance metrics align perfectly with the challenges of mission feasibility assessments, enabling operators to make informed decisions based on simulation data.
How Model-Based Design Helps
Simulation and model-based design play a crucial role in optimising the performance of the EVE Energy 30P cell for UAV applications. By modelling load profiles, thermal behaviour, and voltage response, engineers can predict how the cell will perform under different operational scenarios. This predictive capability allows for the assessment of mission feasibility, ensuring that drones can reliably complete their tasks without mid-air failures. For instance, simulating the thermal rise during high discharge scenarios helps in selecting the right battery configuration to prevent overheating. Furthermore, understanding usable energy across the entire flight envelope enables operators to make go/no-go decisions confidently, reducing the risk of failed launches and enhancing overall mission reliability.
