Effect of activation type on bioregeneration of various activated carbons loaded with phenol

The influence of the pore size distribution of activated carbon on the adsorption of phenol from aqueous solutions was explored. Activated carbons with different porous structures were prepared by gasifying a bituminous coal char to different extents of burn-off. The results of adsorption experiment

Pecan shell chars were activated using steam, carbon dioxide (CO 2 ), or phosphoric acid (H 3 PO 4 ) to produce granular activated carbons (GACs). The GACs were characterized for select physical, chemical and adsorption properties. Air oxidation of the GACs was used to increase copper ion (Cu 2 ) ad

## Abstract In biological treatment processes combined with the use of activated carbon, adsorbability and desorbability receive special attention. In particular, desorbability is of crucial importance for bioregeneration of activated carbon in these systems. This study aims to clarify the effect o

densation of phenol (P) and formaldehyde (F) using P/F Pure compounds, whose structures model that of phenol-formalratios in excess of unity. Whereas commercial novolacs condehyde resins, were synthesized and their adsorption from ethanol tain a number of phenolic units (typically 8-13) with the sol

The removal mechanisms of Cr(VI) from water using diþ erent types of activated carbons, produced from coconut shell, wood and dust coal, were investigated in this project. Diþ erent types of activated carbons have diþ erent surface characteristics. The coconut shell and dust coal activated carbons h