Product Overview

As an upgraded model in the CK-NLPL-5000 series, the CK-NLPL-5000-2 liquid-cooled container maintains the highly integrated design and core system configuration while adopting the upgraded CK-NLPL-104 Standard Module. Benefiting from the high-integration design of the 104S configuration, System Efficiency and reliability are further enhanced, meeting higher-standard application requirements.

Product Features

High Safety

Integrated fire protection system with PACK-level detection and spraying, enabling precise fault point localization and disposal.

Three-level fuse protection for combiner cabinets, high-voltage boxes, and modules, achieving millisecond-level safe disconnection of short-circuit currents.

Comprehensive multi-dimensional monitoring (e.g., fire detection, temperature and humidity environmental monitoring, leakage detection) combined with system-level emergency response plans, building an all-encompassing safety network.

Controls the PACK Temperature Difference within 5°C, enhancing system safety and consistency from a thermal management perspective.

Performance

Higher system energy efficiency, with overall efficiency reaching up to 90%.

Lower Auxiliary Power Consumption: Compared to previous-generation products, auxiliary power consumption can be reduced by 20%.

Excellent thermal management performance, utilizing advanced liquid cooling technology such as non-uniform precision-engineered flow channels. This ensures the battery cell temperature differential within the PACK is controlled within 5°C, enabling the system to consistently operate in an optimal state, thereby effectively guaranteeing lifespan and consistency.

Higher Integration Level, larger Single Container Capacity, and superior System Energy Efficiency significantly save space and reduce overall costs, making it the preferred solution for large-scale Source-Grid-Side Energy Storage.

System Advantages

The entire container boasts Corrosion Resistance Class C4M. Insulation wool is installed inside the doors on all four sides, enhancing the container's thermal insulation function and reducing condensate water generation. Cycle life exceeds 6000 cycles (SOH ≥ 80%, DOD ≥ 90%).

The number of inter-module connectors, high-voltage wiring harnesses, and BMS acquisition units is reduced by approximately 50%, decreasing potential failure points and resulting in high system reliability.

Technical Parameters