Production of microporous carbon by air activation

Three different types of carbon precursor-mesophase microbeads, preoxidized polyacrylonitrile (PAN) fibres, and phenolic fibres-have been carbonized in argon at 900°C and thereafter activated with carbon dioxide at the same temperature. Physical adsorption of nitrogen at -196°C and of carbon dioxide

## Abstract The production of activated carbon from agricultural by‐products is a research field of increasing interest as it deals with the problem of the disposal of agro‐residues, at the same time producing an added‐value product that can be used in a number of environmental applications. The pa

The adsorption isotherms of Xe vapor at 196 K and supercritical Xe at 300 K on activated carbon fibers of different pore widths were gravimetrically measured. The adsorption isotherms of Xe vapor were compared with the N 2 adsorption isotherms. A Dubinin-Radushkevich (DR) plot of the adsorption isot

Devolatilized (950°C) anthracite was activated in 0.1 MPa CO, at 950°C and 0.1 MPa air at 425°C and 450°C. At comparable gasification rates and carbon burn-offs in CO, and air, larger surface areas and pore volumes were developed by activation in CO,. This is attributed foremost to less uniform acti