DAC, or Direct Air Capture, is a core carbon capture technology within the CCUS (Carbon Capture, Utilization, and Storage) framework and a key pathway in the green carbon sector. Unlike conventional approaches that capture CO₂ from industrial emissions, DAC enables the direct separation and removal of carbon dioxide from ambient air, allowing for system-wide emissions reduction and serving as a critical solution for achieving negative emissions.

AI-powered carbon capture represents Getan Zhihe’s innovative business model, integrating advanced technologies such as machine learning, generative AI, and digital twins into a unified solution. This approach spans the entire carbon capture value chain—from customer needs analysis, technology and product development, and equipment manufacturing, to project deployment, solvent management, data acquisition and management, operational services, carbon utilization, and carbon asset management, as well as end-to-end AI-driven development and optimization. By enabling greater efficiency, lower costs, and scalable deployment, this intelligent solution is adaptable to multiple technological pathways, including CCUS and DAC. It stands as a key convergence of technologies driving carbon reduction under global decarbonization goals.

CCUS (Carbon Capture, Utilization and Storage), is one of the core technologies for addressing global climate change and a critical pathway toward achieving carbon neutrality goals. It captures carbon dioxide from industrial emission sources or directly from the air, enables emissions reduction through resource utilization, and safely stores the remaining CO₂—forming a closed-loop system that supports both carbon reuse and negative emissions.