Against the 80% Green Power Red Line for Computing-Power Coordination, Direct Green Power Connection for AIDCs Usher in New Changes
The year 2026 is regarded by the computing industry as the inaugural year for large-scale commercialization of AI, marking a transition from small-scale computing power adaptation to a new stage of constructing large-scale single-cluster ecosystems. Against this backdrop, comprehensive energy solutions have become a core enabler for AIDC enterprises to break through development bottlenecks.
2026 is regarded by the computing power industry as the first year for large-scale commercial application of AI, marking a new phase shifting from small-scale computing power adaptation to the construction of large-scale single-cluster ecosystems. Against this backdrop, comprehensive energy solutions have become a critical breakthrough for AIDC enterprises to break through industry bottlenecks.
I. Explosive Growth of Computing Power and Challenges in Energy Matching
“Over the past year, gigawatt-level intelligent computing parks have emerged as a new mainstream development direction for the industry, yet matching ultra-large-scale computing power with power grids remains a major challenge,” stated Wu Huapeng, CEO of Qinhuai Data. The explosive surge in computing power demand and construction scale has raised higher requirements for the supporting capacity of new energy systems.
This year’s Government Work Report included “coordination between computing and power” in new infrastructure projects for the first time, and set a clear red line that newly built data centers at national hub nodes must source over 80% of their electricity from green power. This means direct green power connection paired with AIDC energy storage is becoming the core pathway for the large-scale rollout of AI computing power in the future.
High penetration of green power brings drastic load fluctuations, complex heat source management and high demand for intelligent regulation within industrial parks. Although mainstream energy storage suppliers have launched a range of AIDC-specific storage products, integrated solutions tailored for direct green power integration are still under exploration.

II. Green Challenges Behind the Skyrocketing AI Computing Power
Global computing power infrastructure is expanding at an annual growth rate of over 40%. Power consumption of single chips has climbed from 2kW to 5kW, while rack power in intelligent computing centers has jumped from 8kW to 500kW or even 1MW — the electricity consumption of a single cabinet is comparable to that of a small residential community.
Forecasts indicate that by 2050, AIDC power demand will account for approximately 8% of global total electricity consumption, equivalent to nearly 5 trillion kWh. This creates a massive gap against the linear expansion speed of power infrastructure, rendering traditional power systems unable to meet exponentially rising computing power demand.
Under such circumstances, wind and solar green power together with energy storage systems form the core solution, ensuring stable, low-carbon power supply amid rapid expansion of computing power infrastructure.
III. Huijie Energy Storage: A Highly Reliable Option for Direct Green Power Connection + AIDC
To meet the stringent requirements of AIDCs with direct green power access, Huijie energy storage equipment stands out as a top industry choice thanks to its modular design, superior safety performance and intelligent management capabilities:
- Modular & Flexible Deployment: Freely combinable according to park scale, compatible with gigawatt-level intelligent computing parks and diverse load configurations
- High-Safety LFP Battery Cells: Mitigate thermal runaway risks and guarantee stable long-duration operation
- Intelligent Energy Management System (EMS): Real-time monitoring of PV generation, energy storage status and load fluctuations to realize coordinated scheduling of generation, storage and loads
- Efficient Long-Duration Energy Storage: Delivers 2–6 hours of backup power and millisecond-level rapid power response to ensure zero downtime for computing centers
Beyond stabilizing power supply for directly connected green power, Huijie energy storage delivers economical, low-carbon and sustainable energy support for AIDC computing parks.
IV. Practical Cases of Direct Green Power Connection + AIDC Energy Storage
Numerous successful practices have emerged at home and abroad:
- Google Minnesota Data Center: Equipped with 1,400MW wind power and 200MW PV, plus a 300MW/30GWh iron-air battery energy storage system to provide consistent green power for AI hubs.
- Trina Energy Storage Qinghai Demonstration Park: Integrates wind, PV, energy storage and charging facilities with computing centers to achieve 100% zero-carbon green power supply.
- Ulanqab Low-Carbon Computing Base, Inner Mongolia: Integrated generation-grid-load-storage system for direct green power supply, eliminating intermediate links, cutting energy costs and boosting data center reliability.
Domestically, Huijie Energy Storage has also rolled out solutions for multiple projects. Its energy storage containers and residential/park energy storage systems have been successfully deployed in communication base stations, park load-side facilities and distributed energy microgrids, delivering solid support for integrated green power direct access and coordinated computing-power operation.
V. Technology Integration Drives Coordinated Development of Computing and Power
AIDC energy storage is evolving from an auxiliary facility to core infrastructure. Huijie energy storage equipment supports direct PV connection while offering additional capabilities as below:
- Dynamic Power Capacity Expansion: Real-time power adjustment to cope with volatile computing loads
- Multi-Scenario Adaptability: Deployable in industrial parks, manufacturing sites, data centers and communication base stations
- Optimized Energy Efficiency: EMS intelligent scheduling maximizes green power consumption and economic benefits
Such integration not only addresses the 80% green power red line requirement for computing-power coordination, but also lays a solid energy foundation for large-scale commercial rollout of AI computing power.
VI. Energy Storage Acts as Accelerator for Computing Power in the Era of Direct Green Power Connection
The conflict between exponential computing power growth and energy supply is intensifying, making the direct green power connection + AIDC energy storage model an inevitable trend. Huijie Technology Group leverages its strengths in modular design, high safety standards and intelligent management to deliver reliable energy solutions for data centers, intelligent computing parks and all types of AI computing applications.
Against the 80% green power red line for coordinated computing and power development, adopting mature and reliable energy storage solutions directly determines park operational efficiency, energy expenditure and green compliance. Feel free to contact us for more details!