ClusterPower – Microgrid-Enabled Modular Data Center in Romania
Challenge
Romania needed a large-scale data center that could operate reliably despite the country’s unstable grid infrastructure. Traditional grid-dependent models risked downtime, high costs, and limited scalability in this region.
Key issues:
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Power grid instability in the area
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Need for sustainable, self-sufficient operations
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Demand for large-scale, scalable infrastructure
Approach
ClusterPower, in collaboration with Cisco, developed a microgrid-enabled modular data center (MDC) — the first of its kind in the region.
Core strategies:
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On-site microgrid: Powered by natural gas + hydrogen, ensuring energy independence.
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Renewable integration: Solar and other clean sources were tied into the microgrid to boost sustainability.
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Modular architecture: Allowed the facility to scale capacity rapidly and cost-effectively.
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Cisco technology: Provided advanced networking, automation, and energy-efficient IT infrastructure.
Results
The deployment achieved:
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High reliability: Continuous uptime even with grid fluctuations.
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Energy independence: Self-sustained power supply reduced reliance on the unstable grid.
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Sustainability gains: Lowered carbon footprint by integrating hydrogen and renewable energy.
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Scalability: Modular design made expansion easier, ensuring future growth.
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Proof of concept: Demonstrated that pairing MDCs with local power generation is a viable and replicable model worldwide.
Impact
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Set a benchmark for Eastern Europe in sustainable, self-powered data center infrastructure.
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Strengthened Romania’s role as a regional digital hub.
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Showcased how microgrid + modular data center synergy can overcome challenges in regions with weak or unreliable grids.
Read Also: Modular Data Center Market Size to Reach USD 155.52 Bn by 2034
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