Most of the gases in air, Nitrogen, Oxygen, Argon and others are obtained by fractional distillation of liquid air.
Xe (xenon) is not obtained through the fractional distillation of water. Xenon is a noble gas and is typically obtained through the fractional distillation of liquid air. Water can be fractionally distilled to obtain gases like hydrogen and oxygen, and neon can also be obtained through fractional distillation processes.
Xenon is obtained through the fractional distillation of liquid air. It is present in the Earth's atmosphere in trace amounts and can be extracted by separating it from other gases using processes such as cryogenic distillation or adsorption. Xenon is a byproduct of some industrial processes, such as the production of oxygen and nitrogen.
Argon is obtained by fractional distillation of liquid air, where it is separated from other gases such as nitrogen and oxygen. It is a byproduct of the production of liquid oxygen and liquid nitrogen.
Argon is obtained through the process of air separation by fractional distillation. Air is liquefied and then distilled at low temperatures to separate it into its different components, including argon.
Pure nitrogen can be obtained from air through a process called fractional distillation. This process involves cooling air to extremely low temperatures to liquefy it, then allowing it to warm up slowly while collecting the different components as they evaporate at different temperatures. Nitrogen will evaporate first, allowing it to be collected as a pure gas.
Xe (xenon) is not obtained through the fractional distillation of water. Xenon is a noble gas and is typically obtained through the fractional distillation of liquid air. Water can be fractionally distilled to obtain gases like hydrogen and oxygen, and neon can also be obtained through fractional distillation processes.
Neon is a gas so it actually can not be mined. It is actually obtained by fractional distillation of Air.
Nitrogen
Neon is obtained from air by fractional distillation.
It is obtained by fractional distillation of liquid air.
Bitumen obtained from fractional distillation is preferred over destructive distillation because it yields a higher quality product with more consistent properties. Fractional distillation separates bitumen based on boiling points, resulting in a cleaner and more refined product compared to the more varied and impure composition obtained from destructive distillation. Additionally, fractional distillation is a more controlled and efficient process, allowing for better quality control and reproducibility.
Xenon is obtained through the fractional distillation of liquid air. It is present in the Earth's atmosphere in trace amounts and can be extracted by separating it from other gases using processes such as cryogenic distillation or adsorption. Xenon is a byproduct of some industrial processes, such as the production of oxygen and nitrogen.
Oxygen, nitrogen, and argon are obtained by fractional distillation for industrial use. This process involves separating air into its components based on their boiling points, with oxygen, nitrogen, and argon being the main products obtained for various industrial applications.
From the Earth's atmosphere - by fractional distillation.
By fractional distillation dozens of very useful products are obtained including Diesel, oil, greases, paraffin, etc.
Nitrogen is obtained from the air, which is about 78% nitrogen gas (N2). It can be separated from the other gases in the air through processes such as fractional distillation or membrane separation.
Through the processs of fractional distillation. It is first obtained by liquefaction.