The SR40 V3 comes equipped with a fully integrated, industrial-grade power distribution system. Our PDUs are engineered specifically to handle the continuous, high-amperage draw of high-density computing loads without derating. The electrical infrastructure includes comprehensive breaker protection, phase balancing, and integration with the container's thermal management PLC to ensure safe operation.
The internal (primary) loop typically utilizes pure, deionized, or specially treated water to ensure maximum thermal conductivity and prevent galvanic corrosion within the mining hardware. The external (secondary) loop, which connects to the dry towers, typically uses a water and industrial glycol mixture formulated specifically for the minimum ambient temperatures of your deployment region to provide reliable freeze protection.
Yes. The SR40 V3 is inherently modular. For multi-megawatt sites, operators can deploy multiple containers in a clustered arrangement. These can be plumbed individually to dedicated dry cooling towers, or engineered to tie into a larger, centralized closed-loop dry cooling array, depending on your site's spatial and redundancy requirements.
We designed the SR40 V3 for low-touch operation. Routine maintenance primarily involves checking coolant fluid quality, cleaning or replacing inline particulate filters, and inspecting quick-connect fittings for integrity. All critical mechanical components, such as pumps and heat exchangers, are positioned for easy access, minimizing the time required for routine servicing or component replacement.
Operational continuity is critical. The SR40 V3 features N+1 redundancy on primary circulation pumps. The integrated programmable logic controller (PLC) continuously monitors system pressure, flow rates, and fluid temperatures. In the event of a primary pump failure, the system automatically engages the backup pump and alerts facility operators, preventing hardware throttling or emergency thermal shutdowns.
The SR40 V3 is designed for rapid deployment with a minimized footprint. Site preparation generally requires a level, load-bearing concrete pad or engineered pier system, primary electrical feeds to the integrated power distribution unit (PDU), and standard plumbing tie-ins to connect the container's primary heat exchangers to the external dry cooling towers.
The SR40 V3 utilizes a closed-loop hydro cooling architecture that isolates sensitive computing hardware from external environmental factors like dust and humidity. For extreme ambient heat, the system relies on high-efficiency dry cooling towers—or adiabatic cooling solutions if required. For freezing environments, the secondary loop can be configured with industrial glycol mixtures and automated temperature regulation to prevent fluid freezing while maintaining optimal miner intake temperatures.
The SR40 V3 utilizes an agnostic, standardized manifold and quick-connect infrastructure. It is engineered to be broadly compatible with the latest generation of hydro-cooled Bitcoin ASICs (such as specific Antminer or Whatsminer hydro models) as well as customized direct-to-chip cooled server racks. We provide tailored hose assemblies and flow control valves to match the precise pressure and flow requirements of your chosen hardware.
The SR40 V3 is explicitly designed for the extreme thermal densities of modern ASIC miners and high-performance computing (HPC) hardware. Through optimized fluid dynamics and high-capacity internal manifolds, it efficiently captures and transfers heat to the secondary cooling loop. Exact megawatt dissipation capacities depend on the specific dry cooling tower pairing and ambient environmental conditions at the deployment site.