The process of removing HS and CO from biog involves a number of different steps. First, the biog must be filtered to remove large particles. This can be done using a variety of methods, including sedimentation and adsorption. At h2szero.com/
Finally, the biog must be neutralized to remove the residual chemicals. This can be done using a variety of methods, including acids and bases. In the neutralization process, the biog is mixed with an acid and then heated to drive off the acid. This step converts any remaining HS and CO into water, carbon dioxide, and salt.The use of air to remove HS, CO and co2 from biog has been studied for a number of years.
The nature of this research has changed over time, as new analytical methods have been developed. For example, in the late 1980s researchers began using solid state nuclear magnetic resonance (SSNMR) technology to analyze samples of biog without breaking down their chemical bonds. However, they were unable to distinguish between electronic isotopes because they weren't able to detect them.
After the large particles have been removed, the biog must be heated to disrupt the chemical bonds between HS and CO. This process is known as thermal oxidation.