8 nov 2025
CO₂ and water savings with ozone water (practical guide)
Producing cleaning water on site reduces CO₂ and water use by cutting bottles, storage and transport—BPR-safe surface cleaning only.
CO₂ and water savings with ozone water: less transport and plastic, locally produced cleaning water and efficient two-cloth workflows. Practical, BPR-safe.
CO₂ and water savings with ozone water (practical guide)
CO₂ and water savings with ozone water
Ozone water enables surface cleaning with locally produced cleaning water. That lowers transport, plastic use and storage while speeding up daily work. BPR-safe and not intended for consumption or medical use.
Why local production matters
On-site production removes bottle logistics, warehouse space and delivery uncertainty. Fewer movements = lower CO₂ footprint and less waste.
- Less freight and ordering traffic
- Lower plastic packaging and empties
- Reduced stock and failure costs
Reducing water practically
Use light mist and targeted cloth application. Avoid rinsing on closed surfaces; dry immediately with cloth B for a streak-free finish.
Two-cloth workflow
1) Light mist on the surface or cloth A. 2) Clean in overlapping strokes. 3) Dry immediately with cloth B. This controls application and limits waste.
Costs & affordability
Production ~€0.0017 per litre. No filters. After ~1000 hours or 500,000 litres: inspect electrodes and replace only if needed (~€75).
- ✅ Fewer bottle and concentrate purchases
- ✅ Lower storage and transport costs
- ✅ Shorter rounds due to a simple workflow
4-step implementation
(1) Start with one zone; (2) measure round time and water use; (3) optimise mist distance and cloth use; (4) roll out to other zones and communicate results.
Guides & internal links
Read: What is ozone water? · Ozone water machine · Guides · Contact · Two-cloth method · Hub: Ozone water sustainability (NL)