Full Article: PDF
Scientific Object Identifier: http://s-o-i.org/1.1/TAS-09-65-45
DOI: https://dx.doi.org/10.15863/TAS.2018.09.65.45
Language: Russian
Citation: Ravshanov N, Saidov U, Shafiyev T (2018) DECISION OF THE DIRECT AND REVERSE PROBLEM OF THE TECHNOLOGICAL PROCESS OF SUSPENSION FILTERING. ISJ Theoretical & Applied Science, 09 (65): 269-279. Soi: http://s-o-i.org/1.1/TAS-09-65-45 Doi: https://dx.doi.org/10.15863/TAS.2018.09.65.45 |
Pages: 269-279
Published: 30.09.2018
Abstract: The article deals with the solution of an actual problem related to the technological process of filtration and dewatering of liquid solutions from finely divided particles. Above mentioned technological process is realized during filtering and cleaning of chemical solutions, drinking water, pharmaceuticals, liquid fuel, public products, etc. For analysis, research, determination of the main parameters of the technological process, as well as modes of operation of filter units and support for management decision-making, a mathematical model has been developed, where it is possible to take into account the different operating conditions of the filter unit and the physicochemical properties of solutions. The article notes that the study of the process of filtering a suspension, determining the main parameters of the process under consideration and their ranges of change for the purpose of managing it at functioning objects makes it difficult to collect data on the process, it takes a lot of time to perform a series of experiments in the laboratory that take a lot of labor and time and It is difficult to find the relationship between the parameters of the filter and the technological process for a limited experimental sample. Taking into account the above, it can be said that the current task is to determine the main parameters and their ranges of change, leading to a decrease in the loss of valuable raw materials, increasing the productivity of the filters used, improving the quality of the output product, etc. when implementing the TPFS. Based on the analysis of the numerical experiments carried out, conclusions are formulated that serve as the basis for making appropriate managerial decisions.
Key words: mathematical model, numerical experiment, technological process, filtration, gel-particles, porous medium.
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