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| Brand Name: | Soeteck |
| Model Number: | SYICDC |
| MOQ: | 1 |
| Price: | To Be Negotiated |
| Delivery Time: | 5-10 Weeks |
| Payment Terms: | D/A,D/P,L/C,T/T |
For businesses seeking high-density, energy-efficient data center infrastructure at a cost-effective price—whether for HPC clusters, AI inference nodes, telecom core networks, or industrial edge computing sites—the 40ft Water-Cooled Container Data Center with Ultra-Low PUE delivers uncompromised performance and reliability. Built into a standard ISO-compliant 40ft shipping container, it integrates a high-efficiency water-cooling system to match its ample IT equipment capacity, eliminating the need for expensive custom data center construction, extensive land use, and complex on-site engineering.
This robust 40ft solution excels in harsh operating environments (from high-temperature regions to high-humidity areas) thanks to its advanced water-cooling technology, which ensures precise temperature control even with high-power-density racks (up to 20kW per cabinet). It features redundant N+1 power protection (UPS + battery backup) and a closed-loop water-cooling circuit optimized for minimal energy consumption, achieving an ultra-low PUE as low as 1.15. The plug-and-play design enables deployment on simple concrete foundations, reducing civil engineering costs by up to 65% and shortening deployment time from months to just 3-4 weeks. With lower long-term energy costs and enhanced equipment stability, it’s the ideal economical choice for businesses balancing performance, reliability, and budget.
| Model No. | Container Size | Total Capacity | Rack Qty | Single Rack Load | UPS Configuration | Cooling |
|---|---|---|---|---|---|---|
| ICDC20 › | 20' HQ (ISO) | 54 KW | 9 Racks | Max 6 KW | 90 kVA Modular (N+1) | In-Row |
| ICDC40-A › | 40' HQ (ISO) | 24 KW | 4 Racks (Spacious) | Max 6 KW | 45 kVA Modular (N+1) | In-Row |
| ICDC40-B › | 40' HQ (ISO) | 72 KW | 12 Racks | Max 6 KW | 120 kVA Modular (N+1) | In-Row |
| Customized › | Non-Standard | Up to 500 KW | Flexible | Up to 20 KW+ | Custom Redundancy | In-Row / Liquid |
Built to standard 40ft shipping container specifications, this data center requires no specialized logistics—you can ship it via regular trucks, trains, or ships to any location worldwide. This seamless mobility keeps transportation costs low, making it ideal for temporary deployments (like event support or disaster relief), remote operational sites, or businesses expanding edge computing capacity without high upfront logistics expenses.
The 40ft container features an intelligently optimized layout that maximizes usable space for IT equipment while leaving ample room for maintenance. In-row cooling units are integrated into the hot/cold aisle containment design, delivering the low PUE performance that keeps energy consumption (and costs) down—even when supporting high-density IT loads. This design ensures you get the most out of your 40ft container, with no wasted space and minimal ongoing energy expenses.
Tailored to diverse deployment scenarios—including small enterprise IT rooms, retrofitted traditional data centers and outdoor edge nodes—our modular data center solutions balance performance, cost and energy efficiency.
3-15 kW per Cabinet
All-in-one integrated cabinet design, plug-and-play deployment (1-3 days), remote intelligent monitoring. Ideal for edge endpoints like retail stores, ATMs and small enterprise IT rooms.
8-30 kW per Cabinet
Column-level prefabricated design, flexible expansion by rows, fits existing server rooms without major reconstruction. PUE 1.2-1.4, perfect for medium-density enterprise IT deployments.
15-40 kW per Cabinet
Airtight cold/hot aisle enclosure, 90%+ cold air utilization, PUE reduced to 1.2-1.3. Cost-effective upgrade for traditional open data centers to support high-density servers.
10-500 kW (20ft/40ft)
Prefabricated all-in-one container (20ft/40ft), dustproof/anti-vibration, deployable outdoors. Liquid cooling optional for AI high-density computing (PUE ≤1.1), ideal for edge & temporary computing needs.
Empowering next-generation infrastructure with superior thermal management for high-wattage computing demands.
