The explosive growth of AI computing power has created new trends and opportunities, as well as a sharp rise in the demand for electric energy. Data show that global data center electricity consumption was approximately 400TWh in 2024 and is projected to rise to 945TWh by 2030, representing a growth rate more than four times that of traditional industries. As AIDC load power continues to rise and fluctuate sharply, coupled with insufficient grid support capacity, high electricity costs, stringent requirements for power supply stability, and escalating multi-stage losses, the conventional power distribution system can no longer meet these challenges.
From the cost, cycle, carbon reduction, policy four dimensions of comprehensive assessment, optical storage integration scheme is the current solution to the AIDC power shortage, to ensure stable supply of computing power. THG Energy Storage’s AIDC holistic integration solution focuses on a dual-engine approach—generation and storage side plus distribution and load side—to build an energy support system that covers all scenarios, the entire value chain, and the full lifecycle.
source storage side takes the grid-type energy storage system solution as the core, and is equipped with pulse-tolerant battery core, performance-enhanced DC module, grid-type PCS and computer-based cooperative EMS to realize millisecond power response and full-station black start, which can suppress broadband oscillation and improve system toughness. The solution is built on a fully in-house, end-to-end technology stack, integrating N-type i-TOPCon bifacial double-glass modules, Pioneer tracking racking systems, and the Tianqing series of alkaline electrolyzers for hydrogen production. Together, these components form a comprehensive energy support system that offers long-duration storage, rapid response, and proactive grid support, providing AIDCs with a stable, efficient, and secure energy foundation.
load distribution side adopts a high-density and high-efficiency power distribution scheme, with 800V HVDC high-efficiency power supply as the core, and the power conversion efficiency reaches 98.5; With the combination of wind-liquid integrated refrigeration technology, the PUE of the data center is lower than 1.15. The solution employs a highly integrated modular data center to consolidate power generation, power distribution, cooling, IT equipment, and monitoring into a single end-to-end system, reducing the delivery cycle by 30% and lowering the total cost of ownership by approximately 20%. At the same time, it is deeply integrated with digital-computing collaboration capabilities to achieve intelligent matching and precise dispatching of computing workload and energy supply, thereby realizing extreme density and efficiency. This comprehensively enhances power supply stability and operational cost-effectiveness, enabling rapid deployment, industry-leading energy efficiency, and cost optimization.
In the future, Tianhe Energy Storage will be based on global diversified needs, continue to polish technological innovation solutions, lead the future of optical storage value, empower AIDC industrial upgrading with full stack capacity, and help the global digital economy and green energy to develop together.
