Statistical physics modeling of water vapor adsorption isotherm into kernels of dates: Experiments, Microscopic interpretation and Thermodynamic functions evaluation

Publication date: Available online 21 November 2019Source: Arabian Journal of ChemistryAuthor(s): Haifa Alyousef, Mohamed Ben Yahia, Fatma AouainiAbstractIn this paper, water sorption isotherms into date kernels give interesting insights about the sorption mechanism. The equilibrium adsorption data expressing the change in moisture content of date kernels were collected at three different temperatures using the static gravimetric technique. The adsorption isotherm profiles demonstrated that this process was performed via an infinite number of layers. A modified form of the Brunauer, Emett and Teller (BET) model is obtained based on the use of the real gas law and statistical physics treatment so the interaction between molecules is considered. This advanced model is used to fit experimental isotherms by numerical simulation. The sorption mechanism is theoretically explained by the parameters that could be related to the water adsorption process. Based on fitting results, we find that the number of molecules per site (parameter n) has a linear tendency with temperature thanks to the thermal agitation effect. A deeper analysis of adsorption energy demonstrates that the water vapors are physisorbed in the date kernels. Through the exploitation of our model, three classic thermodynamic functions are investigated to interpret the macroscopic aspect of the adsorption mechanism.
Source: Arabian Journal of Chemistry - Category: Chemistry Source Type: research