RevolutionizingWaterSecurity

Extracting clean water from air with unmatched efficiency

AddressingtheGlobalWaterCrisis

Water scarcity affects billions worldwide. Our innovative technology offers a sustainable solution to this growing crisis.

2.3 Billion

People currently living in water-stressed areas across the globe

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771 Million

People lacking access to safe drinking water sources

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55% Increase

Projected global water demand growth by 2050

View projections

Current Solutions Fall Short

  • Desalination: High energy consumption and harmful brine discharge
  • Groundwater: Overuse leading to depletion and contamination
  • Conventional AWGs: Inefficient and costly operation

The EAWE Innovation

EAWE technology uses dielectrophoretic forces to extract water from air with unprecedented efficiency:

EAWE Technology0.08-0.15 kWh/L
Conventional AWGs0.25-0.6 kWh/L
HowEAWEWorks

Our revolutionary technology harnesses dielectrophoretic forces to extract water from air with unprecedented efficiency.

Key Components

  • Advanced ElectrodesCarbon nanotube and graphene electrodes create powerful electric fields
  • Superhydrophilic SurfacesTiO₂ coated surfaces enhance water collection
  • High-Voltage System2-12 kV system optimized for maximum efficiency
  • Solar PowerRenewable energy integration for sustainable operation
Air IntakeFilterElectrode ChamberCondensationCollection & PurificationH₂OSolar Power

The 6-Stage Process

1

Air Filtration

Ambient air is drawn in and filtered to remove particulates and contaminants.

2

Water Concentration

Dielectrophoretic forces concentrate water molecules from the air.

3

Condensation

Water vapor condenses on superhydrophilic surfaces.

4

Collection

Condensed water is collected in a reservoir.

5

Purification

Water undergoes filtration and UV treatment to ensure purity.

6

Distribution

Clean water is ready for use or storage.

WhyChooseEAWE?

Our technology offers unparalleled advantages over conventional water extraction methods.

Cost-Effective

Water production costs of $0.004-0.015/L, making it highly competitive in water-scarce regions.

Scalable

Costs drop to $12-15/L/day at commercial scale, with 18-22% cost reduction per production doubling.

Eco-Friendly

Solar-powered operation with no groundwater depletion or brine discharge issues.

Versatile Applications

Ideal for urban, agricultural, emergency response, and remote locations worldwide.

Applications

Residential

Provide clean water for households in water-stressed regions.

Commercial

Supply businesses and industries with reliable water sources.

Agricultural

Support irrigation needs with sustainable water extraction.

Emergency Response

Deploy rapidly in disaster zones to provide critical water supplies.

EconomicallyViableSolution

EAWE technology offers a cost-effective solution for water extraction that becomes increasingly economical at scale.

Cost Comparison ($/L)
EAWE vs. conventional water sources
Cost Scaling with Capacity
Cost per liter decreases with scale
Water Efficiency Calculator
See how EAWE technology can save energy and costs

Efficiency

71%

more efficient

Energy Saved

25.0 kWh

per day

Cost Savings

$3.75

per day

Cost Structure

Capital Expenditure

The initial investment for EAWE technology follows the formula:

Cost = $3,500 × (capacity in liters)^0.75

Learning Curve

EAWE technology benefits from a steep learning curve, with:

18-22% cost reduction per production doubling

Competitive Advantage

At $0.004-0.015/L, EAWE is highly competitive with bottled water ($0.5-2/L) in water-scarce regions, while approaching the efficiency of large-scale desalination ($0.001-0.002/L) without the environmental drawbacks.