Hydrolus
Commercial Focus: Hyperscale Water Reuse

Water Infrastructure
For the AI
Age

Hydrolus transforms municipal wastewater into high-purity process water, enabling the next generation of data centers.

Reinventing the Future of Water Reuse
Customized Treatment in Modular Trains
Parallel Reliability Built for Scale
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Technology

Proprietary Mineral
Adsorption.
Pure Water
at Scale.

Nanosprings™ uses a proprietary synthetic mineral adsorption process to capture dissolved contaminants through electrostatic attraction, an abiotic process with no continuous chemical dosing during treatment flow.

80-85%Reduction in regeneration chemistry vs. worst-case assumptions
ZeroBiologics. Designed for Zero Liquid Discharge.
ParallelTrain architecture supports continuous treatment

Nanosprings™ Technology.
Decentralized Power.

Ultra-Pure Reclamation

Transforming wastewater into high-purity process water through a contained treatment architecture that can be configured for zero liquid discharge.

Architecture: Contained

Modular Scaling

Standardized trains designed for fast on-campus deployment, scaling from 1.6 MGD Standard plants to 6.4 MGD Hyper configurations.

Capacity: 1.6 - 50 MGD

Low-Chemical Treatment Flow

The adsorption process requires no continuous chemical dosing. Regeneration cycles run weekly at 500-1000 ppm TDS, 80-85% less chemistry than conventional systems.

Chem reduction: 80-85%
System 2.0

Modular Units.
Infinite Scale.

Explore Technology
Mineral
NS-01

Adsorption Core

Nanosprings™ Mineral Bed

Granulated synthetic mineral adsorbents capture dissolved minerals through electrostatic adsorption during normal treatment flow. Media is designed for an 8-10 year service life.

Media life: 8-10 yrs
Regen StatusActive
Municipal TDS500-1,000 ppm
Treated TDS<50 ppm
Recovery90%+
NS-02

Regen Cycle

Weekly Chemical Regeneration

Adsorbent beds are periodically regenerated with contained acid/base chemistry rather than continuous chemical dosing during treatment flow.

Periodic regen
Train A
Online
Train B
Online
Train C
Regenerating
Train D
Online
NS-03

Multi-Train

Parallel Redundancy Architecture

Parallel treatment trains operate independently. One train can regenerate while others remain online to support continuous treatment.

Parallel availability
ZLD Output Monitor
92.4%
Recovered
7.6%
Concentrate
0.0%
Discharge
ZLD
Status
NS-04

ZLD Module

Zero Liquid Discharge Config

Designed for zero liquid discharge operation using dry residual handling, with site-specific classification confirmed before commercial commitment.

Water recovery: 90%+

Recover Cooling Tower
Blowdown for Reuse.

Cooling towers remove concentrated water to control dissolved minerals and operating chemistry. Hydrolus can treat that blowdown for return to cooling-tower makeup or another appropriate non-potable use, reducing fresh-water demand and routine sewer discharge.

Blowdown composition varies by site and may include elevated TDS, hardness, silica, treatment residuals, suspended matter, and corrosion products or metals. Final treatment and reuse quality are established through source characterization and engineering.

Explore Blowdown Reuse
01

Capture

Divert blowdown before routine discharge.

02

Treat

Remove target dissolved and site-specific constituents.

03

Reuse

Return water to an approved campus demand.

Market

The Data Center
Water Crisis
Is Now.

Hyperscale data centers require dependable water for cooling and other campus operations. Nanosprings is designed to reclaim source water on-site, reducing dependence on constrained potable supplies.

On-Site

Water reclamation near the point of demand

Modular

Standardized train-based deployment

90%+

Influent wastewater recovered by Nanosprings

Weekly

Representative adsorbent regeneration cycle

Ready to Secure
Your Water Future?

For data centers, municipalities, and industrial operators planning resilient water infrastructure.