The
Technology.
At the core of Ahbstra’s technology 
is the pioneering use of Metal-Organic Frameworks (MOFs), highly porous materials enabling exceptional water capture. Just one gram of MOF provides over 1,200 square metres of surface area – about four tennis courts – allowing it to absorb water even from dry air.

Ahbstra’s AWGs leverage MOFs’ tuneable chemistry to control absorption precisely, making them effective in low-humidity climates like the Mediterranean and ensuring reliable water access in harsh conditions.
Harnessing the Power of MOFs.
Advanced material in sustainable water generation
Reliable water source in low-humidity environments
Customisable chemistry for dry climate performance
Ultra-porous structure for high absorption

    Ultra-porous structure for high absorption

    Customisable chemistry for dry climate performance

    Reliable water source in low-humidity environments

    Advanced material in sustainable water generation

    Ahbstra’s machines operate continuously with minimal energy, combining MOF technology with a patented fluidised bed system that circulates ambient air to maximise water capture.

    Unlike high-energy AWGs, Ahbstra units use ambient air cooling and energy-efficient heating, compatible with renewable sources like solar or geothermal. This approach lowers operating costs and reliably produces water with a fraction of the usual energy demand.
    Fluidised bed design and energy efficiency
    Low operating costs for sustainable use
    Compatible with renewable energy sources
    Heat Pump System – high efficiency, low environmental impact
    Seamless, round-the-clock operation powered by fluidized bed design

      Seamless, round-the-clock operation powered by fluidized bed design

      Heat Pump System – high efficiency, low environmental impact

      Compatible with renewable energy sources

      Low operating costs for sustainable use

      We’ve safeguarded our innovation in key markets, securing patents in regions with severe water stress.
      Intellectual Property Protection.
      Protection in regions most in need of water solutions
      Patented fluidised bed design in Saudi Arabia
      Patent finalisation expected Q4 2024
      Patents filed in Europe, Middle East, Asia, and South America

        Patents filed in Europe, Middle East, Asia, and South America

        Patent finalisation expected Q4 2024

        Patented fluidised bed design in Saudi Arabia

        Protection in regions most in need of water solutions

        To bring this technology to life, Ahbstra partnered with Cambridge Consultants, renowned for pioneering innovations across industries, from smart metering to award-winning medical devices.

        Their expertise in mechanics, fluid dynamics, and thermofluidics was key to transforming Ahbstra’s concept into a 500-litre-per-day machine that performs reliably even in desert conditions. This collaboration has set a new benchmark in water independence, blending advanced performance with dependable design.
        Built by a world-class team of scientific innovators
        Collaborative engineering to achieve breakthrough performance
        Reliable water production in extreme climates
        Transformed concept into a 500-litre/day AWG
        Expertise in mechanics, fluid dynamics, and thermofluidics

          Expertise in mechanics, fluid dynamics, and thermofluidics

          Transformed concept into a 500-litre/day AWG

          Reliable water production in extreme climates

          Collaborative engineering to achieve breakthrough performance

          Pre-order now

          Backed by Science.

          ©Ahbstra 2025
          Privacy PolicyCookie Policy
          AboutFAQsGet in Touch
          The TechnologyThe CompanyThe Environment
          ©Ahbstra 2025
          Privacy PolicyCookie Policy
          Click