Danica Brzić scite author profile

A study of the applicability of the Nonlinear Frequency Response (NFR) approach for investigation of equilibrium and kinetics of gas adsorption, based on numerical simulations, is presented. Pressure responses of a batch adsorber are simulated, using literature data, for a sinusoidal volume change with different input amplitudes, up to 10%, around several steady-state points. The procedure for application of the NFR approach is demonstrated step-by-step, using the simulated pressure responses. As a result, quasi-experimental firstand second-order FRFs are estimated and used for estimation of the equilibrium and kinetic parameters of the adsorption system. The estimated parameters agree well with the original ones used for simulations. Influence of noise on the accuracy of the estimated FRFs and model parameters is also analyzed. The results of this study show that the application of the NFR approach for investigation of equilibrium and kinetics of gas adsorption in a batch system is feasible. Furthermore, valuable information regarding the design of the NFR equipment and experiments is gained.

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Nonlinear Frequency Response measurements of gas adsorption equilibrium and kinetics: New apparatus and experimental verification

Brzić

Petkovska

2015

Chemical Engineering Science

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Hydrodynamics of shallow fluidized bed of coarse particles

Brzić

Ahchieva

Piskova

et al. 2005

Chemical Engineering Journal

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Danica Brzić

Some practical aspects of nonlinear frequency response method for investigation of adsorption equilibrium and kinetics

Nonlinear frequency response analysis of nonisothermal adsorption controlled by macropore diffusion

A Study of Applicability of Nonlinear Frequency Response Method for Investigation of Gas Adsorption Based on Numerical Experiments

Nonlinear Frequency Response measurements of gas adsorption equilibrium and kinetics: New apparatus and experimental verification

Hydrodynamics of shallow fluidized bed of coarse particles

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