Nominal capacity
up to 300 m³/day
Previous Projects & Validated Performance
Our technology has been validated through industrial installations across dairy, food processing, petrochemical, and agrochemical sectors — delivering proven COD reduction, full disinfection, and zero-waste outcomes.
Dairy Plant Effluent Treatment
Dairy processingRussia- Application
- Neutralization of whey and wash water at a dairy plant in the Vologda Region, including post-processing effluent and CIP equipment cleaning streams
- Feed composition
- 40% whey, 50% CIP wash water (containing chemicals), 10% domestic wastewater. Inlet COD exceeding 17,000. Output pH range 5–6
- Scale
- Initially 240 m³/day, later expanded to 350 m³/day
Deployed equipment
- Mobile installation: 2 × 40 ft containerized modules with full equipment fit-out
- Reagent system with electromagnetic activation reactor (VLR)
- Atmospheric oxygen dissolution unit (>90% efficiency)
- Coagulator — uniform reagent-to-pollutant binding system
- Gravity settling chamber
- Filtration unit for coagulated residues
- Biological polishing block
VLR activation effects
Mechanical effects
Ferromagnetic bodies moving at extreme velocities and frequencies produce maximum dispersion inside the reactor, fully dissolving all reagents and air mass injected into the liquid. This increases reagent effectiveness by orders of magnitude. The uniform mechanical contact of particles destroys all microbial cell membranes — achieving 99.99% disinfection, far exceeding ozonation or UV sterilization — and completely eliminates odors.
Electromagnetic effects
Collision of ferromagnetic bodies neutralizes positively charged ions that stabilize dissolved suspended matter, accelerating oxidation processes thousands of times over. Neutralized suspended particles precipitate almost instantly. The system decomposes complex chemical compounds and catalyzes the destruction of molecular bonds.
Outcome: Full design, supply, installation, and successful commissioning completed. Final COD reduced to within regulatory limits (below 500).
What we do
We return water to the ecosystem.
We treat liquid effluents at industrial throughput: a single 40 ft module is designed for up to 300 m³ per day of treatment capacity, depending on feed characteristics and configuration.
Nominal capacity (40 ft unit)
up to 300 m³ / day
Waste treatment
What we process
We process livestock and utility streams at source: cattle effluent, poultry litter runoff, swine wastewater, sheep/goat streams, domestic wastewater, lagoon legacy waste, and food-processing liquids including whey. A mobile unit can serve multiple farms within one radius while keeping logistics simple.
Accepted streams
| Stream type | Treatment outcome |
|---|---|
| Livestock liquid manure | Deactivated and stabilized |
| Poultry/swine streams | Odor removed, sanitised output |
| Lagoon legacy waste | Recovered into useful fractions |
| Domestic wastewater | Prepared for safe reuse pathways |
| Food-processing liquids | Converted into value streams |
How the treatment line works
- 1Mobile treatment unit — reactor, reagent dosing, separator, and flow deactivation/stabilization modules process mixed farm streams directly on site.
- 2Ground support + outputs — single-reagent setup and storage deliver two useful outputs: fully sanitised, odor-free liquid and separate dry fraction ready for valorisation.
Economics & operating metrics
Indicative treatment cost positioning (€/m³)
Illustrative comparison: internal target band vs. typical market reference range (sources vary by region and contract). Not a guarantee of performance.
€ per m³ treated
Target (project)< €10 / m³
Typical market reference€25–45 / m³
0€50
Deployment throughput band
Single 40 ft configuration: indicative hourly window; daily capacity scales with uptime and feed class.5 m³/h50 m³/h
Key operating & scale metrics (indicative)
| Target treatment cost (project) | < €10 / m³ |
|---|---|
| Reference market cost band | €25–45 / m³ |
| Nominal capacity (40 ft unit) | up to 300 m³ / day |
| Process throughput range (layout-dependent) | 5–50 m³ / h |
| Reference feed (case study) | Whey, food production |
Collective utilisation strategy
Turn treatment capacity into direct farm performance gains
The highest-performing collectives do not stop at compliance. They use one treatment backbone to reduce disposal costs, improve on-farm nutrient efficiency, and strengthen member economics season after season.
Secure collective feedstock flow
Start with member farms, nearby processors, and seasonal overflow streams to lock baseline throughput.
Apply treated outputs across member land
Route sanitised nutrient streams into field programs and crop plans where they deliver immediate farm-level value.
Scale collective savings by territory
Add units across neighboring territories to extend treatment capacity and compound input-cost reduction.
Processing into bio fertilizers
- Organo-mineral output with no odor — rich in nitrogen, phosphorus, potassium salts and organic acids, suitable as fertilizer and growth stimulator.
- Field performance — trials indicate up to +25% yield and around +3% protein on crops such as wheat, with no extra field operations.
- Mineral fertilizer replacement logic — helps reduce dependence on urea, phosphate and potash inputs while maintaining crop health.
- Collective-level agronomic fit — formulations can be adapted for different soil conditions, including saline and acidic soils.
Technical differentiation
Physical activation train
Electrolysis, cavitation, and magnetostriction condition the water for rapid chemical polishing, efficient reagent dissolution, and gas transfer—enabling very fast reaction kinetics. In a 40 ft container layout, throughput can reach roughly 5–50 m³ per hour, depending on configuration and water class.
Flow-stream separation & aeration
A new aeration approach supports dissolving more than 80% of the gas into the liquid phase at low energy input, improving mass transfer where it matters.
Biological media
By combining biochemistry and molecular-scale design, we use a microbial substrate that outperforms common carriers: about 5,000 m² of effective surface area per 1 m³ of media for biofilm development.
90-day commercial launch plan for collectives
This sales-led rollout is designed to shorten time-to-value: first secure throughput, then activate direct farm-use value, then scale by territory.
Week 1-2
Capacity and site mapping for your collective footprint
Week 3-4
Commercial model finalisation: buy, lease, or co-invest
Week 5-8
Engineering prep, permitting support, and delivery scheduling
Week 9-12
Commissioning, operator training, and first direct-use cycles