Invest in Cloud-Derived Water & Power

Help scale a proven concept that cuts the cost and carbon of water and electricity in hard-to-serve markets.

Key Investment Pillars

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Climate Tech with Demand

Addressing urgent climate change challenges with innovative, sustainable technology that redefines resource access.

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High-Impact Sustainability

Delivering solutions with profound positive environmental (zero brine, clean energy) and social (water/energy security) impact.

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Patented Airborne Hydro

Pioneering gravity-powered atmospheric harvesting technology with strong defensibility and market disruption potential.

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$1 T+ Addressable Market

Targeting the $1T+ global water and decentralized energy markets with a highly scalable, modular solution fit for diverse applications.

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Execution-Ready Team

Led by a team with deep expertise in engineering, atmospheric science, entrepreneurship, and finance, committed to execution and impact.

Our Strategic Roadmap: Milestones to Market

Roadmap de-risks tech, proves economics, and positions for scale:

1

Months 0-6: Core Technology Validation & Prototype V1

Build and rigorously test first fully functional small-scale prototype.

  • Validate core operational principles of cloud water harvesting and gravity-powered energy generation.
  • Establish and verify key performance metrics (water yield, energy output, system stability in controlled environments).
  • Achieve technical proof-of-concept, demonstrating feasibility and refining core component designs.
  • File foundational patents for core technological innovations.
2

Months 6-12: Pilot Deployments & Real-World Data Acquisition

Conduct initial pilot deployments in representative target environments.

  • Gather extensive real-world data on water/energy output, operational efficiency, and system durability under varied atmospheric conditions.
  • Assess system performance against diverse environmental factors (wind, temperature, cloud density).
  • Secure initial interest/feedback from potential off-takers or pilot partners (e.g., NGOs, remote communities).
  • Identify critical areas for refinement and optimization based on field experience.
3

Months 12-18: Product Refinement, MVP Design & Early Market Engagement

Refine prototype (V2) based on pilot data, develop scalable manufacturing plan, and initiate MVP certification pathway.

  • Optimize system design for manufacturability, cost-effectiveness, deployment ease, and robustness.
  • Develop a detailed Bill of Materials (BoM) and establish relationships with key component suppliers for scalable manufacturing.
  • Initiate Minimum Viable Product (MVP) design specifications and commence certification processes.
  • Secure Letters of Intent (LOIs) or initial commitments from early adopter customers/partners.
4

Months 18-24: Commercial Readiness & Seed Funding Preparation

Achieve MVP certification readiness, prepare for scaled manufacturing, and strategically position for Seed funding round.

  • Finalize MVP design and achieve key milestones for certification, demonstrating product viability and safety.
  • Prepare for scaled manufacturing and develop go-to-market strategy for initial commercial deployments.
  • Develop comprehensive business plan, financial model, and investor deck for the next growth phase.
  • Successfully position AirHES for a Seed round investment to fuel expansion, team growth, and market penetration.

Vast Market & Unparalleled Competitive Edge

Targeting trillion-dollar markets with breakthrough technology that redefines resource access.

Total Addressable Market (TAM)

$1 Trillion+

The water-and-off-grid-energy market exceeds €1 T. AirHES serves the slices where pipes, grids or desalination fail.

Key Target Market Segments

Off-Grid Communities & Islands

Demand for energy/water independence, displacing costly diesel and imported water. (Est. Initial Market: $50B+)

Desert & Water-Stressed Regions

Need for sustainable, non-saline water for agriculture, industry, domestic use (e.g., MENA, India, Australia). (Est. Initial Market: $200B+)

Emergency Response & NGOs

Critical need for rapidly deployable life-sustaining resources in disaster relief and humanitarian aid. (Est. Initial Market: $15B+)

The AirHES Competitive Edge

  • Dual water + energy output

  • Anywhere with clouds, no grid

  • Zero brine, no fuel or batteries

  • Gravity-powered → ultra-low OPEX

  • Modular 10 m² to 10 000 m² units

  • Advanced materials + data optimisation

Compelling Economics, Sustainable Returns

Unit economics beat diesel gensets and trucked water; numbers below are validated with pilots and satellite data.

Water Production Cost

~$0.05-$0.20

per cubic meter (m³)

Significantly undercuts trucked water and highly competitive with/beats desalination in target regions.

Electricity Generation Cost

~$0.005-$0.02

per kilowatt-hour (kWh)

Dramatically lower than diesel generators, providing affordable, clean off-grid power.

Projected Payback Period

< 1 Year

in target applications

Rapid ROI driven by minimal OPEX and high-value dual resource generation.

Collaborate for Global Impact: Partnership Opportunities

We invite NGOs, utilities and researchers to pilot, co-develop and scale AirHES deployments.

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NGOs & Humanitarian Organizations

Partner on pilot programs, disaster relief deployments, and community development projects to bring essential resources to vulnerable populations.

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Governments & Municipalities

Collaborate on implementing sustainable resource solutions for water-stressed regions, off-grid areas, and climate adaptation strategies.

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Infrastructure & Energy Companies

Work with developers and energy providers seeking innovative, decentralized, and sustainable resource solutions to complement existing portfolios.

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Technology & Research Institutions

Engage with experts in materials science, atmospheric data, AI/ML for optimization, and power generation to further enhance and diversify AirHES technology.