The Water Generation Process
Atmospheric Water Generators (AWGs) extract potable water directly from the air around us through a sophisticated condensation and purification process.
Air Intake
Ambient air is drawn into the system through filters that remove dust, pollen, and airborne contaminants.
Condensation
The filtered air contacts cooling coils that lower the temperature below dew point, causing water vapor to condense into liquid.
Purification
Collected water passes through multiple filtration stages including carbon filters, UV sterilization, and mineralization.
Storage & Dispensing
Purified water is stored in a sanitized reservoir and dispensed on demand, with continuous filtration if stored longer than 24 hours.
Technical Specifications
Our AWGs are designed to operate efficiently across various environmental conditions
Environmental Requirements
- Working temperature: 15-40°C
- Working humidity: 35-95% RH
- Optimal performance at 30°C & 80% RH
- Desiccant-based models for arid regions (10-30% humidity)
Power & Energy
- Residential units: 200-600W
- Commercial systems: 1-3 kWh
- Industrial generators: 10-50 kWh
- Compatible with solar and wind power
Water Production
- Residential: 5-30 liters/day
- Commercial: 50-200 liters/day
- Industrial: 500-10,000+ liters/day
- Cost: $0.02-$0.15 per liter
System Comparison
Choose the right AWG for your specific needs and environment
| System Type | Daily Output | Energy Usage | Best Environment | Price Range |
|---|---|---|---|---|
| Residential Units | 5-30 liters | 200-600 watts | 40-90% humidity | $500-$2,000 |
| Commercial Systems | 50-200 liters | 1-3 kWh | 30-90% humidity | $3,000-$10,000 |
| Industrial Generators | 500-10,000+ liters | 10-50 kWh | 20-90% humidity | $25,000-$100,000+ |
| Desiccant-Based | 20-100 liters | Lower at low humidity | Arid regions (10-30%) | Varies |
| Solar-Powered | 15-50 liters | Self-sustaining | Sunny regions | $2,000-$15,000 |
Frequently Asked Questions
Everything you need to know about atmospheric water generation
Most standard condensation-based units require a minimum of 30-40% relative humidity to operate efficiently. In areas with lower humidity, specialized desiccant-based models are recommended for arid conditions.
Production costs range between $0.02-$0.15 per liter depending on local electricity prices, humidity levels, and unit efficiency. This is typically more economical than bottled water in the long term.
Regular maintenance includes replacing air filters every 3-6 months, changing water filters every 6-12 months, quarterly tank sanitization, and annual professional inspections. UV bulbs require yearly replacement.
Yes, solar-powered models are available for off-grid operation. These self-sustaining units are ideal for remote locations, disaster relief, and areas with unreliable power infrastructure.
Experience Pure Water Generation
See our atmospheric water generators in action and discover how they can provide sustainable water solutions for your home or business.