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Evaluating regenerated activated carbon through laboratory and pilot‐column studies
Preliminary studies suggest that the conventional method of carbon regeneration at 962° C (1750°F), which was developed for carbon heavily laden with industrial and wastewater organics, may be too harsh a condition for carbon used for drinking water. Regeneration at 542° C (1000° F) may lead to adsorption sites being clogged. At 850° C (1550° F), carbon regeneration restored the carbon capacity for MEK and n‐butanol probes during laboratory studies.
Evaluating regenerated activated carbon through laboratory and pilot‐column studies
Preliminary studies suggest that the conventional method of carbon regeneration at 962° C (1750°F), which was developed for carbon heavily laden with industrial and wastewater organics, may be too harsh a condition for carbon used for drinking water. Regeneration at 542° C (1000° F) may lead to adsorption sites being clogged. At 850° C (1550° F), carbon regeneration restored the carbon capacity for MEK and n‐butanol probes during laboratory studies.
Evaluating regenerated activated carbon through laboratory and pilot‐column studies
Cairo, Patrick R. (author) / Coyle, James T. (author) / Davis, John J. (author) / Neukrug, Howard M. (author) / Suffet, Irwin H. (author) / Wicklund, Arnold (author)
Journal ‐ American Water Works Association ; 74 ; 94-102
1982-02-01
9 pages
Article (Journal)
Electronic Resource
English
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