By integrating data from various project systems and leveraging cloud computing, AI technology, big data, digital twins and other technologies, we aim to achieve pre-event planning and prediction, in-event monitoring and perception, and post-event diagnosis and optimization. We strive to address the issues of supply and demand balance and resource misallocation, with the goal of increasing revenue and reducing expenditure, ensuring safety, enhancing security, and achieving unified scheduling.

Relying on independently developed formulas, we create mineral immersion liquid with high insulation and excellent thermal physical properties, achieving efficient direct contact heat dissipation throughout the entire area. We also pass strict material compatibility tests and full life cycle environmental protection design, providing ultra-safe, long-life and precisely matched immersion liquid cooling solutions.

Relying on multi-physics field precise simulation and efficient microstructure topology design, low flow resistance and full-domain uniform temperature are achieved. Through highly reliable process guarantee and system-level verification, precisely matched microchannel liquid cooling plates are provided for high-density chips.

Adopting environmentally friendly and highly efficient fire suppressants, multiple point spray technology, and real-time closed-loop control of battery monitoring and suppression systems, it takes into account the unique fire extinguishing characteristics of lithium batteries to achieve multiple fire suppression, temperature reduction, and continuous prevention of re-ignition.

The multi-coupling detection technology overcomes the shortcomings of traditional single detection technology, such as false alarms and missed detections; the segmented early warning technology identifies different stages of thermal runaway and alerts the superior equipment at four levels.