Abstract. The article is devoted to the study of hydraulic properties of carbon adsorbers used in various industrial processes. Their purpose and areas of application are considered. The main attention is paid to the experimental determination of hydraulic resistance coefficients, which are key parameters for modeling and optimizing the operation of adsorption systems. An experimental setup was developed and manufactured, devices were selected to determine the main parameters for determining the hydraulic characteristics of carbon adsorbers. During the study, experiments were carried out to measure the hydraulic resistance of carbon adsorbers under various operating conditions. Various parameters were used, the parameters of the working medium flow, such as speed and pressure, varied. The obtained data made it possible to determine the dependences of hydraulic resistance on these parameters and identify the optimal conditions for the operation of adsorbers. The results of the study show that the porosity and structure of carbon adsorbers significantly affect their hydraulic characteristics. The hydraulic resistance coefficients for various types of adsorbers were experimentally determined, which is important for optimizing filtration and separation processes. A comparative analysis of experimental data with theoretical models was carried out, which made it possible to refine existing models and propose new approaches to calculating hydraulic characteristics. The obtained experimental data make it possible, on the one hand, to refine mathematical models of the adsorption process, and on the other hand, to determine the adequacy of existing models. In conclusion, the importance of experimental studies for understanding and optimizing the hydraulic characteristics of carbon adsorbers is emphasized. The results obtained can be useful for developing new and improving existing adsorption systems, which is of great importance for various industries where carbon adsorbers are used.
adsorber, filter, hydraulic resistance, efficiency
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