This report provides an in-depth analysis of the mutual empowerment relationship between AI computing power and power systems in 2026. As global data center electricity consumption is expected to exceed 600 TWh, CSPs are accelerating investments in SMR, deep geothermal, and other baseload green energy sources to secure energy sovereignty. Meanwhile, the widespread adoption of long-duration energy storage technologies (such as VRB and CAES) and HVDC architecture is addressing the intermittency challenges of renewable energy. AI has evolved from being a mere power consumer into the core intelligence of Virtual Power Plants (VPPs), coordinating V2G technology to optimize loads and reshape the resilience of global power grid transformation.

Key Highlights

• Data Center Power Demand: Global data center electricity consumption projected to exceed 600 TWh by 2026, driving urgent energy infrastructure expansion.
• Energy Security Strategy: Cloud Service Providers (CSPs) accelerating investments in Small Modular Reactors (SMR), deep geothermal energy, and baseload green sources to achieve energy sovereignty.
• Energy Storage Innovation: Long-duration storage technologies (VRB, CAES) and HVDC architecture mitigating renewable energy intermittency challenges. 
• AI's Dual Role: AI's evolution from a rigid load consumer to the decision-making nexus of virtual power plants: leveraging systemic integration of digital twins and V2G to redefine the resilience baseline of modern power systems.
• Grid Resilience: AI-powered systems reshaping global power grid transformation and enhancing overall system resilience.

Table of Contents

1. AI Data Centers Drive Power Infrastructure Transformation and Green Energy Premium
   • Figure 1: Application Advantages of SMR/MMR in Hyperscale AI Data Centers
   • Table 1: Evaluation Matrix of Green Energy Benefits
2. From Short-Term Peak Shaving to Cross-Seasonal Energy Storage: VRB and CAES Define New Standards for Grid Dispatch
   • Figure 2: Closed-Loop Ecosystem Architecture of VRB
   • Table 2: Energy Storage Evaluation Matrix: Battery Technologies vs. CAES
3. Regionalized Supply Chains and 'Nearshoring' Systems Control Mineral Resources
4. HVDC Architecture Combined with V2G Technology Reshapes Cross-Border Energy Dispatch Resilience
   • Figure 3: Synergy of Long-Duration Energy Storage and HVDC Architecture
5. TRI’s View

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