The effect of surface polarity and pore dimension on the adsorption of polar molecules on activated carbon cloth

Quantum close-coupling c3Icuhtions are presented which verify that the rotational polartriution observed in recent experiments on NO-Ag(I 11) scattering is due primarily to rzv conservation. However a dramatic dependena of rotational transitions on initial q in some surfwe collisions is also indicat

The influence of reference vapor polarity on the characterization of microporous carbon adsorbents using the Dubinin equations was investigated. Polarity may be an important parameter for reference vapor selection due to the influence of electrostatic forces on the adsorption of polar vapors. Adsorb

The chlorination of carbon cloth, both as-received and air activated, at 400°C produces carbons exhibiting increased water adsorption. At least two types of fixed chlorine are formed. Chemisorbed chlorine (ca. 7% by weight) is formed at 400°C and is not removed by sweeping with argon at 400°C. In ad

## Abstract The adsorption of __Escherichia coli__ on different activated carbons has been studied. The activated carbon samples used have been characterized, determining their surface area, pore size distribution, elemental analysis, mineral matter analysis and pH of the point of zero charge. The

The effects of oxidation of activated carbons are studied by means of high-pressure methane adsorption. Decreases in amounts adsorbed and adsorption enthalpies after oxidation are observed. Thermodynamic analysis of adsorption isotherms using the virial-type thermal equation of adsorption is present

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