Cooling Tower Blowdown Reuse
Recover concentrated cooling water, remove target contaminants, and evaluate reuse as cooling-tower makeup or another campus demand.
Explore SolutionSolutions // Data Center
Water Resilience for Hyperscale
Nanosprings™ is designed to recover 90%+ of source water, helping reduce dependence on constrained potable supplies.
01 / The ProblemThe Data Center
The Data Center
Water Crisis
Is Here.
Data centers are water-intensive by design. Cooling towers — essential for thermal management — consume millions of gallons a day per hyperscale campus and produce high-TDS blowdown that's typically discharged to sewer. As water stress increases and regulations tighten, this is no longer an acceptable operating model.
1–5M+ gal/dayPer hyperscale campus
On-SiteReclamation near the point of demand
ModularTrain-based infrastructure scales by campus need
Module 01 // How Nanosprings Solves ItRecycle. Reuse.
Recycle. Reuse.
Reduce. Repeat.
90%+
Water Recovery
Nanosprings processes source water on-site, efficiently recovering over 90% as reusable water for cooling towers and other campus needs.
ZLD
Zero Liquid Discharge
Designed for zero liquid discharge operation with dry residual handling and site-specific classification confirmed during diligence.
On-Site
On-Campus Utility Zone
Modular trains designed for DC-adjacent placement — no off-site water treatment facility required.
Parallel
Train Availability
Parallel train architecture allows one train to regenerate while others remain online to support continuous treatment.
02 / Deployment ConfigurationsFast Buildout Paths.
Fast Buildout Paths.
One Architecture.
Tier 1
Standard
Capacity1.6 MGD
Trains1 (Primary)
Buildout5-6 months
Mid-scale colocation, 50–100MW
Reference ConfigurationTier 2
Hyper
Capacity6.4 MGD
Trains4 (Parallel)
Buildout6-8 months
Hyperscale campus, 100–300MW
Tier 3
Portfolio
CapacityMulti-site
TrainsStandardized fleet
BuildoutPhased rollout
Multi-campus / portfolio-level
Timelines shown from notice to proceed to commercial operation. Site-specific engineering assessment determines final schedule.
03 / Water Reuse Solutions01 02 03 04 05 06 07 08
Plan the Full Water Cycle.
Data Center Water Reclamation
Connect reclaimed municipal water, internal recovery, storage, treatment, and redundancy in one campus water strategy.
Explore SolutionMunicipal Wastewater Reuse
Create a utility and data center partnership that turns treated effluent into a fit-for-purpose industrial water source.
Explore SolutionData Center Zero Liquid Discharge
Evaluate high-recovery treatment, final concentration, residual handling, and the site conditions that may justify ZLD.
Explore SolutionWater-as-a-Service
Structure dedicated water infrastructure around project development, financing, ownership, operations, and delivered-water performance.
Explore SolutionMunicipal Water Infrastructure
Support data center growth with reclaimed-water infrastructure that can reduce equivalent demand on potable systems.
Explore SolutionOn-Site vs. Centralized
Compare treatment placement across conveyance, scale, ownership, reliability, residuals, and expansion.
Explore SolutionWater Reuse Retrofits
Add reclaimed water or blowdown recovery to operating campuses while protecting cooling continuity.
Explore SolutionModule 02 // Adjacent Markets
Beyond Data Centers. Water is Universal.
Municipal
Population growth and aging infrastructure are straining municipal water systems. Nanosprings delivers scalable, low-maintenance reclamation for utility-grade deployment.
Industrial
Manufacturing and semiconductor fabrication demand high-purity process water at consistent supply. Nanosprings reduces biological process risk and operating variability.
Island / Remote
Replacing energy-intensive desalination with point-of-use reclamation — supporting water independence without continuous chemical dosing or large footprints.
Ready to evaluate Nanosprings for your facility?
Talk to Our Team