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MODULAR DAC MACHINE
Cost-competitive, resilient CO₂ supply at any scale. Our modular DAC system is engineered for energy-efficient capture, reliable operation in any climate, and phased deployment from a single system to multi-kilotonne parks.
Operational excellence
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SKYTREE STRATUS CORE BENEFITS
Our proprietary moving-bed TVSA process focuses thermal cycling on the sorbent - not the surrounding structure - and can leverage low-grade heat sources. Together, these measures lower electricity consumption to as little as 0.9 MWh per tonne of CO₂ captured.
SKYTREE STRATUS BENEFITS
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Climatic Configurations and proprietary AI-powered dynamic process control deliver a stable CO₂ flow in any environment - from deserts to polar regions. Where incumbent DAC processes see ±30% output variability with varying climate, Skytree Stratus delivers stable output year-round. Productivity gains of up to 30% in cold climates are possible.
Adaptable by design
Upgrade captured CO₂ from >98% to ≥99.9% food- and beverage-grade purity, ready for downstream processing, transport or long-term storage.
Run Skytree Stratus on external heat ≥80°C and cold water ≤8°C from geothermal, industrial, or district sources. Full thermal integration can reduce electricity consumption by 60%.
Four configurations, Temperate, Arid, Tropical and Polar, adapt hardware and process for temperatures from −35°C to 50°C and humidity up to 100%, with insulated paneling, thermal-reflective coatings, dust/sand intakes, and heat-tracing for cold starts.
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OUR DAC MACHINES
Need multi-kilotonne or Megatonne capacity? Stratus Park uses the same proven technology, configured into large infrastructure for industrial-scale deployment.
SKYTREE STRATUS TECHNOLOGY SERIES
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The Skytree Stratus architecture utilizes a moving-bed Temperature Vacuum Swing Adsorption (TVSA) process. By physically decoupling adsorption and desorption, this design solves the inherent thermal inefficiencies of traditional fixed bed DAC, offering a more stable and cost-efficient path to on-site CO₂ generation.
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Capturing CO₂ is only the first step in the value chain. For industrial operators in sectors like food and beverage or e-fuels, the primary concern is the form and purity of the final product. Gas capture alone is often insufficient for sites that require CO₂ storage or specific food grade certifications.
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Direct Air Capture (DAC) systems are, by definition, exposed to the elements. For an industrial-scale deployment, the local climate is a primary variable that dictates system reliability, machine capacity, and capture efficiency. A system designed for a laboratory will fail when faced with the abrasive sand of a desert, the corrosive humidity of the tropics, or the sub-zero reality of a polar winter.
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From controlled-environment agriculture to e-fuel production, for industries requiring a reliable supply of CO₂, the primary barrier to adopting Direct Air Capture (DAC) has historically been energy cost. Traditional DAC systems have struggled with high energy consumption and rigid thermal requirements that made them difficult to integrate into existing industrial processes. Skytree Stratus rewrites this narrative by combining high-efficiency hardware, a unique moving-bed architecture, internal thermal harvesting, and utilization of external waste heat sources.
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Traditional Direct Air Capture (DAC) has long faced a fundamental atmospheric challenge: the weather. Because CO₂ capture relies on sensitive chemical reactions, a machine designed to work perfectly on a cool, humid morning in Northern Europe will inherently underperform during a dry, hot afternoon in the desert. These one-size-fits-all static systems result in wasted energy and under-utilized hardware.
THE CO₂ TRANSITION IN MOTION
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The $100/ton figure for the Levelized Cost of Captured CO₂ (LCoCO₂) has become a widely cited benchmark in the Direct Air Capture (DAC) industry. But this number is frequently misunderstood, often conflated with a market price, a guaranteed future cost or a universal industry standard.
Direct Air Capture (DAC) is a groundbreaking and innovative technology that directly captures carbon dioxide (CO₂) rom ambient air. This pioneering technology is a beacon of hope in the fight against climate change, reducing CO₂, a major greenhouse gas, in the atmosphere. The captured carbon will be utilized in various industrial processes, presenting a sustainable and circular approach to carbon management.
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Recycling is a familiar concept for consumers around the world - but few would think it applies to natural gas or carbon dioxide. As global resources like CO₂ become more scarce, it’s increasingly important to find new ways to maintain a secure supply while acting responsibly to protect the planet, and economic progress.
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THE DAC SPOTLIGHT
The GreenTech Innovation Award recognizes the most revolutionary and impactful innovations in the horticulture industry. A jury of experts selected Skytree Stratus for its forward-thinking approach to decentralized carbon dioxide (CO₂) capture, offering a sustainable and cost-effective solution for greenhouse operators.
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GET STARTED
Deploy DAC tailored to energy profiles, CO₂ use cases, and future scaling needs, with expert support at every stage.