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Query: UMLS:C0033036 (
APC
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10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This study aims to clarify the effect of activated carbon type on the extent of adsorbability, desorbability, and bioregenerability in the treatment of
2-chlorophenol
. Four different activated carbon types; thermally activated and chemically activated powdered carbons (
PAC
), and their granular countertypes (GAC) with similar physical characteristics were used. Thermally activated carbons adsorbed
2-chlorophenol
much better than chemically activated ones. However, adsorption was more reversible in the case of chemically activated ones. The use of powdered and granular activated carbon countertypes resulted in comparable adsorption and desorption characteristics. For each activated carbon type,
2-chlorophenol
exhibited higher adsorbability and lower desorbability than phenol. Biodegradation of
2-chlorophenol
took place very slowly when it was used as the sole carbon source in acclimated and non-acclimated activated sludges. Bioregeneration occurred only via desorption due to an initial concentration gradient and no further desorption took place due to low biodegradability. Bioregeneration of activated carbon loaded with
2-chlorophenol
was not a suitable option when
2-chlorophenol
was the only carbon source. It is suggested to remove
2-chlorophenol
via adsorption onto activated carbon rather than applying biological treatment. Also in such cases, the use of thermally activated carbons with higher adsorption and lower desorption capacities is recommended rather than chemically activated carbons.
...
PMID:Adsorption, desorption and bioregeneration in the treatment of 2-chlorophenol with activated carbon. 1694 82
