Vacuum pumps play a vital role in carbon capture technology, and their application value is mainly reflected in the following key areas:

1.Carbon capture, utilization, and storage technology: Vacuum pumps play a central role in this technology, helping to reduce carbon dioxide emissions from industry and working to reduce carbon dioxide concentrations in the atmosphere.

2.Fossil fuel pretreatment and pre-combustion carbon capture: During the gasification process of fossil fuels converted to hydrogen and carbon dioxide, vacuum pumps are responsible for the efficient separation of carbon dioxide from hydrogen.

3.Post-combustion carbon capture processes: In these processes, vacuum pumps are used to capture carbon dioxide from industrial flue gases and remove the captured carbon dioxide from solvents using vacuum technology through an "air stripping" or "regeneration" process.

4.Direct Air Carbon Capture Technology: This technology uses an adsorbent under vacuum conditions to capture carbon dioxide directly from the ambient air, and a vacuum pump reduces the pressure of the adsorption filter in the process to release the captured carbon dioxide.

5.Applications of Vacuum Pump Technology: Vacuum pump technologies such as pressure swing adsorption, membrane separation processes, and chemical cycling using amine chemicals play a crucial role in carbon capture processes.

Vacuum pump technology is widely used in carbon capture technology, which not only improves the efficiency of the carbon capture process, but also makes an important contribution to achieving the global net-zero emission goal.