The characterisation of microporous carbons by adsorption from liquid and vapour phases

Three typical samples of active carbons have been investigated by using immersion calorimetry and adsorption techniques (t-plot, t/F method of Dubinin and direct anafysis of the adsorption isotherm before and after prefilling), in order to obtain their external surface area. The different techniques

Data for water adsorption at 293 K by an activated series and a heat-treated series of PVDC based carbons are reported. Type 5 (BDDT) isotherms were obtained for adsorption by each carbon. Total water adsorption volumes (a,) are lower than total pore volumes and Dubinin-Radushkevich micropore volume

The hydrophobic micropores of active carbon were filled with the four adsorption parameters could be determined by a a mixture of water and ethanol by adsorbing their mixed vapors combination of volumetric and gravimetric methods, if the (H 2 O/EtOH Å 3/1) on active carbon. The desorption isotherm o

Activated carbons prepared from two bituminous coals were used to adsorb phenol in aqueous solutions. The major diþ erence between the coal precursors is the oxygen content. The carbon preparation consisted of carbonization of the coals followed by activation in to various CO 2 extents of burn-oþ .

In an isothermal fixed bed absorption system for constant mlet flowrate of mert gas and concentrations of two adsorbates the more strongly adsorbed component wdl chsplace the weaker one and affect Its breakthrough characteristics A small scale techmque was used to study this phenomenon for the adsor