A collection of systems joined together and formed into a processes to capture CO2 in the dry atmospheric air using an air vacuum pump with attached big fan. The big fan suctions the air while the air vacuum pump pulls the air/gases into the air storage tank. The air/gas being transferred to the built-in freezer in order to freeze it and defrost the ice to liquid. The liquid is drained and transferred to the liquid storage tank. An electrolysis chamber that contains silica gel and peridotite powder allow the separation of molecules upon the application of electrical field. The aqueous silica gel mixed with peridotite powder is the medium serve as an absolute molecular sieves of carbon molecules. A tracking dye is added to the peridotite powder to track the movement of molecules. The liquified gases are injected to the aqueous silica gel. Electrolysis begins by connecting the anode and cathode points to the power supply and electrolysis chamber. When the power supply is switch-on migration of molecules towards the anode and cathode takes place due to electrical field generated by volts. The carbonate ion migrate to the anode side and reacts to the cation (+) of the calcium of the peridotite rocks powder to form calcium carbonate.