Solar2Water - Safeconomy

Solar2Water – Clean Drinking Water from Air Using Solar Energy

Synopsis

Solar2Water is an innovative, solar-powered atmospheric water generation (AWG) solution designed to deliver safe, reliable drinking water directly from air, even in water-scarce, off-grid, and climate-stressed environments.

Developed by EcoTechX, Solar2Water addresses the escalating global water crisis driven by climate change, population growth, forced displacement, and contamination of surface and groundwater resources. The technology decouples drinking-water production from traditional water sources, enabling 24/7 water generation using renewable solar energy.

Solar2Water is field-tested, patent-protected, and ready for scale, offering a practical, climate-resilient solution for humanitarian, institutional, and remote applications.

Solar2Water at a Glance

100%

SOLAR-POWERED

water generation using renewable energy in grid and off-grid settings

25–30 L/DAY

COMPACT SYSTEM OUTPUT

suitable for individuals, families, and small community use

90–100 L/DAY

MODULAR SYSTEM OUTPUT

for larger community, institutional, and humanitarian deployments

24/7

WATER PRODUCTION

continuous operation with battery support for night-time use

UK PATENT

IP PROTECTED

priority patent filed with tested prototypes

FIELD-DEPLOYED

PROVEN TECHNOLOGY

operational systems deployed in Limpopo for community and aquaponics use

Why Sustainable Water from Air Matters

2+ BILLION

PEOPLE LACK SAFE DRINKING WATER

with climate change and water contamination accelerating scarcity worldwide

CLIMATE CHANGE

WATER SOURCES AT RISK

groundwater depletion, saline intrusion, droughts, and flooding threaten conventional supplies

FORCED DISPLACEMENT

MOBILE WATER NEEDED

refugee camps and disaster zones lack reliable, safe water infrastructure

OFF-GRID COMMUNITIES

INFRASTRUCTURE GAPS

remote areas remain excluded from centralized water networks

WATER-NEUTRAL

NO SURFACE OR GROUNDWATER REQUIRED

reducing environmental stress and dependency on existing water bodies

CHALLENGE

Access to clean drinking water is becoming one of the most urgent humanitarian and climate challenges of our time. Rising temperatures, prolonged droughts, pollution, and population growth are placing unprecedented pressure on already-stressed water systems.

In many regions, water infrastructure is either non-existent, damaged, contaminated, or inaccessible. Communities affected by conflict, displacement, or natural disasters often rely on unsafe water sources, increasing the risk of disease and mortality.

Conventional water-supply solutions are capital-intensive, location-dependent, and slow to deploy, leaving millions without reliable access. Without disruptive, decentralised alternatives, global water insecurity will continue to escalate, undermining health, stability, and development outcomes.

Why the Water Challenge Persists

Orphaned

Drinking-water access often falls between infrastructure, health, climate, and humanitarian funding silos, limiting coordinated investment in decentralised solutions.

Invisible

Water scarcity impacts—disease burden, lost productivity, and gendered water collection—are under-accounted for in economic and policy planning.

Expensive

Large-scale water infrastructure and desalination systems are costly, energy-intensive, and impractical for remote or temporary settlements.

APPROACH & TECHNOLOGY

Approach

Advanced Atmospheric Water Generation

Extracts potable water directly from ambient air
Operates effectively in low-humidity environments
Decouples water supply from rainfall, rivers, and aquifers

Solar-Powered, Off-Grid Design

Fully solar-driven operation
Battery-enabled night-time production
Suitable for grid-connected and off-grid contexts

Modular & Portable Architecture

Scalable from individual units to community systems
Portable and rapidly deployable
Minimal installation and training requirements

Water-Neutral & Climate-Resilient

No dependency on water bodies
No groundwater extraction
Designed for extreme climates and emergency conditions

Results

Demonstrated Outcomes

Continuous 24/7 clean water production
Double the water output per unit energy compared to conventional
AWGs
Reliable operation in low-humidity conditions
Field-tested systems producing 25–100 litres/day
Zero dependency on existing water infrastructure

S2Cool is redefining cooling — not by consuming more energy, but by needing far less of it.

MARKET & APPLICATIONS

Primary Use Cases

Refugee camps and humanitarian response
Disaster-relief and emergency deployments
Remote and off-grid communities
Military and field operations
Educational institutions and public facilities
Areas affected by water contamination

Secondary Applications

Aquaponics and sustainable agriculture
Coastal and arid regions
Temporary and modular housing developments

MOVING FORWARD

Solar2Water Role

Solar2Water acts as a decentralised water-security solution, enabling clean drinking water access where conventional infrastructure cannot reach. By combining renewable energy, modular design, and climate resilience, Solar2Water supports humanitarian response, development resilience, and long-term sustainability.

Near Term (0–1 Years)

Multi-environment performance validation
Product optimisation for mass deployment
Certifications and regulatory compliance
Expanded pilot deployments

Medium Term (1–3 Years)

Manufacturing scale-up and cost reduction
Strategic partnerships with NGOs and governments
Deployment across humanitarian and institutional markets
Investor-backed go-to-market execution

Long Term (3+ Years)

Large-scale adoption in water-stressed regions
Integration into disaster-response frameworks
Contribution to global water-security strategies
Support for SDGs 6 (Clean Water), 7 (Clean Energy), and 13 (Climate Action)

Partners

Project Lead

UK PARTNERS

MULTIMEDIA

UN Water Conference 2026 Preparatory Meeting | Dakar, Senegal

Prolific North “Tech for Good” Award 2025

2nd Advancement in Atmospheric Water Harvesting Webinar

Work highlighted in the Autumn edition of Northumbria University’s newspaper

International Water Association Show in London

International Water Association’s Water Horizons 2025

IP & DEVELOPMENT STATUS

TRL 8–9 (Minimum Viable Product) with fully integrated, market-ready Solar2Water systems
UK priority patent filed, securing core intellectual property
Prototypes fully tested and validated, with successful real-world field deployments
Technology licensed to EcoTechX (UK), with defined rights for manufacturing and market deployment
Open to strategic partnerships, including regional licensing, co-development, and equity investment