YUAN-ACR-Q
YUAN
Activated carbon regeneration:
Regeneration, commonly referred to as reactivation, is a method of thermally treating activated carbon to destroy the absorbing components contained on its surface. During regeneration, the absorbed components are almost completely removed, resulting in regenerated carbon, which can again function as an absorbent.
Typical activated carbon recovery process:
The waste activated carbon in the workshop is accumulated in the open space for more than half a month. Through microbial fermentation, part of the organic matter adsorbed on the activated carbon is consumed, which reduces the organic content of the activated carbon. Then it is divided into pottery adze, placed in a kiln for high temperature roasting and a small amount of air is introduced. The organic matter in the waste carbon is decomposed by high temperature, and part of the disordered carbon is also consumed by oxidation, which plays a role in cleaning the micropores inside the activated carbon. Organic substances such as sugars and pigments blocked in the pores of activated carbon are first oxidized to amorphous carbon, and then carbon dioxide is also generated under the action of oxygen.
During the roasting process, about 20% of the carbon in the waste carbon is consumed, and the generated heat supplements the heat energy required for burning. The recovery rate of waste carbon is about 80%. After the roasting is completed, it is cooled to room temperature, taken out and crushed, and then it can be used for recycling activated carbon.
Application of activated carbon regeneration system:
The activated carbon regeneration system can be used in the production of maltose and glucose.
Activated carbon regeneration:
Regeneration, commonly referred to as reactivation, is a method of thermally treating activated carbon to destroy the absorbing components contained on its surface. During regeneration, the absorbed components are almost completely removed, resulting in regenerated carbon, which can again function as an absorbent.
Typical activated carbon recovery process:
The waste activated carbon in the workshop is accumulated in the open space for more than half a month. Through microbial fermentation, part of the organic matter adsorbed on the activated carbon is consumed, which reduces the organic content of the activated carbon. Then it is divided into pottery adze, placed in a kiln for high temperature roasting and a small amount of air is introduced. The organic matter in the waste carbon is decomposed by high temperature, and part of the disordered carbon is also consumed by oxidation, which plays a role in cleaning the micropores inside the activated carbon. Organic substances such as sugars and pigments blocked in the pores of activated carbon are first oxidized to amorphous carbon, and then carbon dioxide is also generated under the action of oxygen.
During the roasting process, about 20% of the carbon in the waste carbon is consumed, and the generated heat supplements the heat energy required for burning. The recovery rate of waste carbon is about 80%. After the roasting is completed, it is cooled to room temperature, taken out and crushed, and then it can be used for recycling activated carbon.
Application of activated carbon regeneration system:
The activated carbon regeneration system can be used in the production of maltose and glucose.
