Carbon Capture & Storage (CCS)
Quantum-Driven Breakthroughs in Carbon Sequestration
- Built To Order
- Production Ready
CCS is critical to reducing global CO2 emissions, especially from hard-to-abate sectors like cement, steel, and power generation. Automatski brings a new era of precision and efficiency in CCS with its quantum-powered modeling and simulation capabilities.
Overview
Carbon Capture and Storage involves the removal of CO2 emissions from industrial processes or power generation before they reach the atmosphere. Captured carbon is then transported via pipelines or ships and stored deep underground in stable geological formations, such as depleted oil and gas fields or saline aquifers.
Modelling Carbon Sequestration w/ Quantum Computing
Traditional CCS efforts are challenged by the high energy cost and inefficiency of capture methods. Metal-Organic Frameworks (MOFs) are among the most promising materials for low-energy CO2 capture due to their tunable pore structures and chemical binding properties.
Automatski’s Contribution:
With Automatski’s 300+ Qubit Full State Vector Quantum Simulator, we can simulate the molecular-level interactions of CO2 with various MOFs and catalyst structures—at production scale and in full quantum fidelity.
This enables:
- Accurate modeling of CO2 adsorption and desorption
- Rapid discovery and optimization of novel MOFs
- Near-zero energy binding configurations
- Scalable deployment for industrial CCS use cases
Automatski delivers quantum-grade modeling to fast-track the global transition to carbon-negative industries.
Author : Aditya Yadav