Raschig Rings for Natural Gas Decarbonization
Decarbonization of natural gas requires using absorbent material to prevent product loss due to entrainment or loss. One common means is using Raschig rings designed by Friedrich Raschig in 1914 as column packings with equal height and diameter cylinders containing ceramic particles (though other materials like metal and glass may also be used), often made of ceramic with equal height and diameter cylindrical packings made out of ceramic material; they’re generally inert, meaning they do not interact with chemicals being separated while being easily customizable for different applications with low production costs associated with production costs.
In this study, CO2 gas was absorbed in a Raschig ring packing column using 0.1 M NaOH absorbent. Experiments involved varying the contact time, absorbent flow rate and air flow rate in order to observe their impact on CO2 absorption. Results demonstrated that maximum desirability could only be reached when contact time and absorbent flow rate were optimized to match individual circumstances.
Graphite/Carbon Raschig Rings are widely utilized in towers for stripping, absorption, cooling and washing purposes in chemical industries. Their main characteristics are large flux, uniform liquid distribution and high mass transfer efficiency – not to mention they’re resistant to almost all corrosive chemicals over a broad temperature range! Perfect for gas absorption applications including gas absorption, oxidation distillation purification filtration washing as well as gas absorption or purification processes such as purification or filtering processes they come in various wall thicknesses and diameters to suit specific tasks in chemical industries!