▎ 摘　　要

NOVELTY - System (100) comprises enclosed chamber (10) comprising hollow interior, carbon-based gas source fluidically coupled to the chamber and configured to supply carbon-based gas to the hollow interior, hydrogen source (70) independent of the carbon-based gas source fluidically coupled to the chamber and configured to supply hydrogen to hollow interior, oxygen source (60) independent of the carbon-based gas source fluidically coupled to the chamber and configured to supply oxygen to hollow interior, igniter configured to ignite the carbon-based gas, hydrogen and oxygen in the hollow interior, first flow meter coupled to carbon-based gas source, second flow meter coupled to hydrogen source, third flow meter coupled to oxygen source and controller (30) in communication with and configured to receive flow data from first, second and third flow meters, where the controller is configured to adjust flow from carbon-based gas sources, hydrogen source, and/or oxygen source in response to flow data. USE - The system is useful for producing graphene (claimed) and for conversion of flue gases, flare gases, and hydrocarbon gases into useful carbon nano-material. ADVANTAGE - The system allows the reaction chamber to process a variety of variable carbon-based gases and liquids and reduce carbon emission, creates a product that has a multitude of applications across several industries and also capable of being portable to scalable, allowing for remote applications needing large scale capture. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for producing graphene by using system. DESCRIPTION OF DRAWING(S) - The system shows a carbon capture system. 10Enclosed chamber 30Controller 60Oxygen source 70Hydrogen source 100System