Carbon Removal, Finally Built to Scale

The most cost-efficient modular DAC system that enables capture costs below $250/ton.

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Unlocking Billions in Carbon Credits for Both Utilization and Sequestration Markets.

Over $4B in voluntary carbon credits for sequestration are stalled due to the lack of scalable DAC technology. At the same time, the carbon removal market is projected to reach $125B annually by 2035, with e-fuels poised for explosive growth.

MISSION

Built to Deliver Carbon Removal That Works

Existing DAC solutions have failed to address efficiency and profit bottlenecks. We bring breakthrough technology, a scalable business model, and a team with 20 years of carbon capture experience. Our first product series “Kelvin” helps project developers turn carbon removal from cost center to profit driver.

Kelvin Pod 100 ton/year

Breakthrough Technology

Proven pilots, modular units, the lowest energy needs, and a global supply chain.

Breakthrough Technology

Proven pilots, modular units, the lowest energy needs, and a global supply chain.

Breakthrough Technology

Proven pilots, modular units, the lowest energy needs, and a global supply chain.

Unique Business Model

Licensing, manufacturing, and partnerships that de-risk scale-up.

Unique Business Model

Licensing, manufacturing, and partnerships that de-risk scale-up.

Unique Business Model

Licensing, manufacturing, and partnerships that de-risk scale-up.

Diverse Team

Engineers, PhDs, and entrepreneurs driving innovation across continents.

Diverse Team

Engineers, PhDs, and entrepreneurs driving innovation across continents.

Diverse Team

Engineers, PhDs, and entrepreneurs driving innovation across continents.

OPPORTUNITY

"This development represents a significant step forward for direct air capture. With its ultra-low-temperature regeneration, low-energy requirements, and a design that scales, DACLab has addressed most of the major hurdles. This innovation is timely as the market transitions from costly pilots to industrial-scale deployment.”

Dr. Klaus Lackner, advisor to DACLab and pioneer in DAC

OPPORTUNITY

"This development represents a significant step forward for direct air capture. With its ultra-low-temperature regeneration, low-energy requirements, and a design that scales, DACLab has addressed most of the major hurdles. This innovation is timely as the market transitions from costly pilots to industrial-scale deployment.”

Dr. Klaus Lackner, advisor to DACLab and pioneer in DAC

OPPORTUNITY

"This development represents a significant step forward for direct air capture. With its ultra-low-temperature regeneration, low-energy requirements, and a design that scales, DACLab has addressed most of the major hurdles. This innovation is timely as the market transitions from costly pilots to industrial-scale deployment.”

Dr. Klaus Lackner, advisor to DACLab and pioneer in DAC

TECHNOLOGY

Four Years of Focused Innovation to Unlock the Next Generation of DAC

Iterative process engineering on multiple prototypes led to an adsorbent-agnostic decoupled architecture.

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Decoupled Architecture

Adsorption and desorption are separated into distinct units. Thus enabling higher efficiency, continuous CO2 output, and better process control.

Decoupled Architecture

Adsorption and desorption are separated into distinct units. Thus enabling higher efficiency, continuous CO2 output, and better process control.

Decoupled Architecture

Adsorption and desorption are separated into distinct units. Thus enabling higher efficiency, continuous CO2 output, and better process control.

Ultra-Low Energy Demand

Regenerates at as low as 70°C and requires under 1,800 kWh/ton, cutting energy use by nearly 50% compared to conventional DAC.

Ultra-Low Energy Demand

Regenerates at as low as 70°C and requires under 1,800 kWh/ton, cutting energy use by nearly 50% compared to conventional DAC.

Ultra-Low Energy Demand

Regenerates at as low as 70°C and requires under 1,800 kWh/ton, cutting energy use by nearly 50% compared to conventional DAC.

Modular & Mass Manufacturable

Plug and play units fit into standard shipping containers for easy transport, rapid deployment, and linear scalability from pilots to megaton projects.

Modular & Mass Manufacturable

Plug and play units fit into standard shipping containers for easy transport, rapid deployment, and linear scalability from pilots to megaton projects.

Modular & Mass Manufacturable

Plug and play units fit into standard shipping containers for easy transport, rapid deployment, and linear scalability from pilots to megaton projects.

Proven & Flexible

Over 2,000 hours tested in real-world pilots across two TRL-6 units. Built to adapt seamlessly to variable grid conditions.

Proven & Flexible

Over 2,000 hours tested in real-world pilots across two TRL-6 units. Built to adapt seamlessly to variable grid conditions.

Proven & Flexible

Over 2,000 hours tested in real-world pilots across two TRL-6 units. Built to adapt seamlessly to variable grid conditions.

JOURNEY

Developing Carbon Removal for Megaton Scale by 2030, and Gigaton Scale by 2050

DACLab has already tested its technology for over 2,000 hours across two 100-ton/year pilots. Projects with leading sequestration operators and sustainable aviation fuel producers are underway, including a $1M e-fuel integration grant project. With proven results and a clear scale-up path, we're working to deliver carbon removal for $250/tonne at a capacity of 500,000 tonnes.

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Partner With Us

Whether you are developing SAF, e-fuels, or large-scale sequestration projects, DACLab’s modular systems plug in quickly and deliver cheaper CO2 streams.

Partner With Us

Whether you are developing SAF, e-fuels, or large-scale sequestration projects, DACLab’s modular systems plug in quickly and deliver cheaper CO2 streams.

Partner With Us

Whether you are developing SAF, e-fuels, or large-scale sequestration projects, DACLab’s modular systems plug in quickly and deliver cheaper CO2 streams.