Abstract
The paper presents the numerical analysis based on the low temperature N 2 adsorption isotherms of carbon foam microporous structures prepared by various methods from furfuryl alcohol by employment of the fast multivariant fitting procedure of the thermodynamical LBET class models. Various techniques, including chemical vapor polymerization, were employed to produce microporous carbons. To perform the analysis of the porous structure, the fast multivariant fitting procedure with the new adsorption numerical models of the LBET class was used. The results of the analyses carried out with the use of the fast multivariant fitting procedure of the LBET class models have provided valuable information concerning the microporous structure of the analyzed materials, with the determination of the reliability of the defined parameters of the LBET class models. Those studies have been completed by microscopic research aimed at visualization of the macroporous structure as a framework for the formation of micropores.
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