Trends
Carrier industry trends
Application Scenarios
Challenges
High CAPEX and risks
Carbon neutrality
Security and availability
Complex construction and O&M
Design Principle
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Green: Uses more green energy sources and deploys green power on a larger scale. -
Efficient: Consumes less electricity, water, and other resources. -
Recyclable: Uses technologies for waste heat and material recovery.
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Architecture: Uses innovative designs for buildings and equipment rooms. -
Power supply: Redefines components and links. -
Cooling: Shortens links while boosting efficiency.
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Automated O&M: Goes digital and intelligent. -
Automatic energy efficiency optimization: Enables smart cooling. -
Autonomous operations: Maximizes resource value.
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Proactive security: Prevents faults and closes them quickly. -
Secure architecture: Safeguards everything from components to data centers.
Solutions & Benefits
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Short TTM, prefabrication, recycling Prefabricated modular data centers, no building from scratch. TTM is 6 months instead of 2 years, faster service rollout. 95% prefabricated, 80% of materials can be recycled. -
Efficient power supply and rack deployment 97.8% end-to-end power supply efficiency. 40% smaller footprint 10-year service life for lithium batteries, taking up three times less space than lead-acid batteries. Each battery is equipped with an independent fire extinguisher. -
Optimal PUE, easy delivery and maintenance The indirect evaporative cooling system capitalizes on natural cooling sources, saving energy and water. Delivery is twice as fast thanks to the "one system per container" design. The AI-based cooling system reduces data center energy consumption by 3%–15%. -
Higher asset utilization and O&M efficiency Real-time monitoring of one or multiple data centers. All links are visible, manageable, and controllable. 20% higher utilization of rack, cooling, and power resources. 35% cheaper O&M thanks to AI-based intelligent inspection and predictive maintenance.
Challenges
Carbon neutrality
Security and availability
Complex construction and O&M
Design Principle
-
Green: Uses more green energy sources including PV and energy storage. -
Efficient: Consumes less electricity, water, and other resources. -
Recyclable: Recovers out-of-service materials.
-
Architecture: Uses innovative designs for buildings and equipment rooms. -
Power supply: Redefines components and links.
-
Automated O&M: Goes digital and intelligent. -
Automatic energy efficiency optimization: Enables smart cooling. -
Autonomous operations: Maximizes resource value.
-
Proactive security: Prevents faults and closes them quickly. -
Secure architecture: Safeguards everything from components to data centers.
Solutions & Benefits
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High efficiency and density, saving power and space UPS5000-H: up to 99% efficiency in S-ECO mode and 0 ms transfer. 3 U 100 kVA power modules: half the footprint. Lithium batteries: 10-year service life, three times less space than lead-acid batteries. Each battery is equipped with an independent fire extinguisher. -
Low PUE and high-density deployment On-demand capacity expansion thanks to the smart modular design. Annual PUE as low as 1.111 in Beijing. In-row air conditioners for high-density deployment, delivering close-coupled cooling and using natural cooling sources if equipped with refrigerant pumps. -
Easy site selection and fast delivery Pre-installed, integrated, and tested in the factory. Quick onsite deployment. Can be deployed anywhere — in factories, warehouses, parking lots, or even on rooftops. -
Higher asset utilization and O&M efficiency Real-time monitoring of one or multiple data centers. All links are visible, manageable, and controllable. 20% higher utilization of rack, cooling, and power resources. 35% cheaper O&M thanks to AI-based intelligent inspection and predictive maintenance.
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