Technology | EnBrilion

Safe, Reliable & Efficient

At EnBrilion, we focus on developing energy storage solutions that are safe, reliable, and built to last.

Our advanced technologies ensure optimal efficiency and robust safety, providing dependable energy storage for the long term.

Cell Monitoring and Active Balancing

To maintain the health and efficiency of our battery cells, we use cell monitoring and active balancing technologies.

Cell monitoring continuously tracks the performance and condition of each cell, while active balancing redistributes charge among cells to ensure uniform performance and extend battery life. This combination maximizes the overall efficiency and longevity of our ESS.

Immersion Cooling

For our most advanced systems, we employ immersion cooling. This cutting-edge technology submerges electronic components in a dielectric fluid, which directly absorbs heat.

Immersion cooling provides exceptional thermal efficiency and reliability, ensuring our systems operate smoothly even under the most demanding conditions.

Liquid Plate Cooling

Our larger ESS solutions incorporate liquid plate cooling. This technology involves circulating a coolant through specially designed plates that absorb and transfer heat away from critical components.

Liquid plate cooling offers superior thermal management, making it perfect for high-performance applications.

Air Cooling

For our smallest Energy Storage System (ESS) EnBreeze 15kW, we utilize air cooling technology. This method is efficient and cost-effective, ensuring optimal performance by dissipating heat through air circulation. It's ideal for smaller systems where space and simplicity are key considerations.

Maximizing Battery Performance and Safety: Liquid vs. Air Cooling

At EnBrilion, we prioritize optimal thermal management to enhance battery performance, longevity, and safety. The choice of cooling method is crucial in achieving these goals. Here’s why liquid cooling outperforms air cooling:

Superior Heat Dissipation

Liquid cooling systems excel at dissipating heat, maintaining consistent battery cell temperatures. This prevents overheating and thermal runaway, ensuring battery safety and performance.

Enhanced Efficiency

By keeping temperatures lower and more uniform, liquid cooling reduces thermal stress on battery cells, improving efficiency and significantly extending battery lifespan.

Compact Design

Liquid cooling systems are more compact than air cooling systems, optimizing space within battery packs—ideal for applications where space is limited.

Quiet Operation

Unlike fan-reliant air cooling systems, liquid cooling operates quietly, making it perfect for noise-sensitive environments.

Scalability

Easily scalable, liquid cooling systems can accommodate larger battery packs, making them suitable for a wide range of applications, from electric vehicles to large-scale energy storage systems.

Enhanced Safety

Liquid cooling minimizes the risk of thermal runaway by effectively managing heat, preventing hot spots, and ensuring uniform temperature distribution, significantly reducing the chances of catastrophic battery failures.