Isotherms and thermodynamics of CO2 adsorption on a novel carbon-magnetite composite sorbent

“…This model considers the following assumptions: (i) the molecules are adsorbed to a fixed number of active sites, which are well defined; (ii) the adsorption forms a single monolayer; (iii) each site can contain a single molecule of adsorbate and adsorbed grindings will not change the adsorption site; (iv) each adsorption site possesses the same energy, therefore, there are definite and energetically equivalent numbers of adsorption sites, and thus the surface of the adsorbent is homogeneous; (v) there is no interaction between the adsorbed molecules in nearby sites and (vi) the adsorption system is in equilibrium. Therefore, the adsorption constant is equal to the desorption constant [8]. The model of the Langmuir isotherm is reported in Equation (6), as follows: where q L is the maximum capacity of adsorption in the monolayer, P CO 2 (atm) is the pressure at the equilibrium of the adsorbed gas, and K L (atm −1 ) is the Langmuir adsorption constant or the affinity constant related to the energy of adsorption [40].…”

“…The adsorption of molecules on a surface that has a constant interaction energy is not common since most solids have a heterogeneous surface [8]. The Freundlich model [41] is described by an empirical equation used for systems with a high degree of heterogeneity.…”

“…The strength of the bonds is not homogeneous due to the physicochemical characteristics of the adsorption sites or the number of molecules already adsorbed. In particular, as more molecules join to a site and it is less likely that another molecule will join the same site because it requires a higher (exponentially) energy [8]. The model of the Freundlich isotherm is reported in Equation (7), as follows:…”

“…where K s (atm −1 ) is the constant of the Sips isotherm, q s (mmol g −1 ) reflects the maximum adsorption constant, and m s is the heterogeneity factor that represents the deviation of the linearity of adsorption [8]. A value of m s close to or equal to 1 is given in adsorbents with homogeneous active sites [45], while a value of m s close to 0 occurs in biosorbents that possess the heterogeneously distributed active sites [46].…”

“…About 60% of the effects of global warming are due to CO 2 , even though methane and chlorofluorocarbons have a much greater greenhouse effect in relation to the mass of the gases. CO 2 emission has increased in recent years [2], and the international panel on climate change (IPCC) stated that the average concentration of CO 2 could rise to 570 ppm by 2100, causing a 1.9 • C increase in the average global temperature and a 38 cm increase in sea level [8]. For this reason, CO 2 has become a threat to the environment [2].…”

Kinetic and Equilibrium Study of the Adsorption of CO2 in Ultramicropores of Resorcinol-Formaldehyde Aerogels Obtained in Acidic and Basic Medium

“…This model considers the following assumptions: (i) the molecules are adsorbed to a fixed number of active sites, which are well defined; (ii) the adsorption forms a single monolayer; (iii) each site can contain a single molecule of adsorbate and adsorbed grindings will not change the adsorption site; (iv) each adsorption site possesses the same energy, therefore, there are definite and energetically equivalent numbers of adsorption sites, and thus the surface of the adsorbent is homogeneous; (v) there is no interaction between the adsorbed molecules in nearby sites and (vi) the adsorption system is in equilibrium. Therefore, the adsorption constant is equal to the desorption constant [8]. The model of the Langmuir isotherm is reported in Equation (6), as follows: where q L is the maximum capacity of adsorption in the monolayer, P CO 2 (atm) is the pressure at the equilibrium of the adsorbed gas, and K L (atm −1 ) is the Langmuir adsorption constant or the affinity constant related to the energy of adsorption [40].…”

“…The adsorption of molecules on a surface that has a constant interaction energy is not common since most solids have a heterogeneous surface [8]. The Freundlich model [41] is described by an empirical equation used for systems with a high degree of heterogeneity.…”

“…The strength of the bonds is not homogeneous due to the physicochemical characteristics of the adsorption sites or the number of molecules already adsorbed. In particular, as more molecules join to a site and it is less likely that another molecule will join the same site because it requires a higher (exponentially) energy [8]. The model of the Freundlich isotherm is reported in Equation (7), as follows:…”

“…where K s (atm −1 ) is the constant of the Sips isotherm, q s (mmol g −1 ) reflects the maximum adsorption constant, and m s is the heterogeneity factor that represents the deviation of the linearity of adsorption [8]. A value of m s close to or equal to 1 is given in adsorbents with homogeneous active sites [45], while a value of m s close to 0 occurs in biosorbents that possess the heterogeneously distributed active sites [46].…”

“…About 60% of the effects of global warming are due to CO 2 , even though methane and chlorofluorocarbons have a much greater greenhouse effect in relation to the mass of the gases. CO 2 emission has increased in recent years [2], and the international panel on climate change (IPCC) stated that the average concentration of CO 2 could rise to 570 ppm by 2100, causing a 1.9 • C increase in the average global temperature and a 38 cm increase in sea level [8]. For this reason, CO 2 has become a threat to the environment [2].…”

Kinetic and Equilibrium Study of the Adsorption of CO2 in Ultramicropores of Resorcinol-Formaldehyde Aerogels Obtained in Acidic and Basic Medium

Natural Products Derived Porous Carbons for CO₂ Capture

Effective adsorptive removal of trace CO₂ from olefin using alkanolamine‐polyethylenimine‐functionalized fumed silica