Documented outcomes from Aarvish's field operations — detailed technical case studies with performance data, technical analysis, and lessons learned.
Supporting climate research in the High Arctic with reliable water supply for 25 scientists. The system operates autonomously in temperatures as low as −40°C, requiring no external power or fuel deliveries.
Rapid deployment during a spring flooding emergency provided clean water to 2,000 evacuees. The containerized system was fully operational within 4 hours of arrival, serving 3 evacuation centres simultaneously.
A modelled pilot at Shamattawa First Nation shows the AWG-RO hybrid delivering 8,000–20,000 L/day off-grid — a 70–80% cost reduction versus trucking, operating through Manitoba winters down to −40°C while creating local jobs.
Real performance metrics from our deployed AWG-RO systems operating in some of Canada's harshest environments.
Daily litre output scaling from pilot deployment to full provincial rollout
By source technology per unit per day
Statistics driving the need for decentralized solutions worldwide
Five data-driven visualisations showing AWG-RO system output, seasonal efficiency, contaminant rejection, 10-year economics, and regional water-stress context.
8,000 L/day max capacity · colour scale: dark navy = <2K L/day → light blue = 6–8K L/day
Hexagonal radar across 6 operational axes · Summer (May–Sep) vs Winter (Oct–Apr)
Y-axis zoomed 80–100% · dashed amber line = WHO 95% minimum standard
Cost in $CAD thousands · Capital front-loaded for AWG-RO · Trucking scales linearly at ~$420K/yr
Index 0–100 · higher = greater stress · dashed line at 40 = WHO Moderate Stress Threshold
Real-world operational benchmarks from AWG-RO systems engineered for Canada's most demanding remote and Arctic environments — full system reliability metrics and water quality compliance profiles.
Power source distribution for a fully off-grid AWG-RO hybrid unit — no utility grid connection required
Uptime performance targets per system module — engineering design specifications and cold-climate bench testing
Post-treatment output profile from the AWG-RO hybrid system — all values represent engineering design targets verified in laboratory bench tests
Streamlined engineering process designed for remote access — no permanent road or utility grid connection required at any phase
A data-driven breakdown of how Aarvish's decentralized hybrid system outperforms conventional water supply approaches in remote and Arctic communities.
| Metric | Trucking | Centralized Plant | AWG Only | RO Only | Aarvish AWG-RO Hybrid ★ |
|---|---|---|---|---|---|
| Daily Output (Litres) | Supply-limited | 10,000–50,000 | 1,000–5,000 | 5,000–15,000 | 8,000–20,000 |
| Cold-Climate Uptime | Weather-dependent | 85–90% | 90%+ | 95%+ | 98%+ |
| Cost per Litre (CAD) | $0.10–$0.50 | $0.05–$0.15 | $0.08–$0.20 | $0.04–$0.10 | $0.03–$0.08 |
| Setup Time | Ongoing logistics | 2–5 years | 4–8 weeks | 6–10 weeks | 4–6 weeks |
| Renewable Energy | ✕ | ◑ | ✔ | ✔ | ✔ Wind + Solar |
| Fully Off-Grid | ✕ | ✕ | ✔ | ◑ | ✔ Fully Off-Grid |
| Rated to −40°C | ✕ | ✕ | ✔ | ✔ | ✔ (to −40°C) |
| Contaminant Removal | None (raw delivery) | Standard | UV / HEPA / Mineral | 95–99% TDS | Full Spectrum + Alkaline |
| Local Jobs Created | Truckers only | Centralized ops | 2–4 local | 2–4 local | 5–10 local operators |
| CO₂ Reduction / Year | — | Low | Medium | Medium | 15–30 tonnes / unit |
| Capital Cost (CAD) | $150K+ / yr ongoing | $5M–$50M | $200K–$400K | $150K–$350K | $300K–$800K |
| Payback Period | Never (sunk cost) | 10–20 years | 3–5 years | 2–4 years | 2–4 years |
Every AWG-RO unit deployed is a measurable step toward a lower-emission, water-secure future — per unit, per year.
Centralized infrastructure fails remote communities. Here's why distributed AWG-RO systems are the engineering answer.
Containerized modules deploy in 4–6 weeks versus 2–5 years for centralized plants. Communities under long-term advisories can't wait — Aarvish delivers water security in weeks, not years.
Fly-in communities are unreachable by conventional infrastructure. Our units are air-transportable, fit in a standard shipping container, and require no road access to install and operate.
Each deployment trains 5–10 local operators. Communities own and control their water supply — no dependence on external contractors or government trucking schedules.
Designed for −40°C with insulated housing and anti-freeze systems, our units handle Manitoba winters, spring floods, and summer drought conditions — all in one platform.
Payback in 2–4 years versus trucking costs of $0.15–$0.50/litre. Annual community savings of $200K+ fund local priorities rather than emergency water logistics.
Start with one unit. Add capacity as needs grow. Phase 1 → Phase 2 → Phase 3: pilot, provincial, inter-provincial — the same modular platform scales to any community size.
Whether you're a First Nations band council, government agency, NGO, or research institution — Aarvish offers free site assessments, technical engineering reviews, and rapid pilot project planning at no upfront cost.