Designing a Control System for Underground Water Intakes

The hydrolytosphere as a multicomponent system is very complex in its structure. Management of hydrolysis processes involves consideration of three aspects: improving the methods for determining the parameters of hydraulic communication of aquifers, capacitive and filtration properties; improvement...

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Veröffentlicht in:	IOP conference series. Earth and environmental science 2019-06, Vol.272 (2), p.22026
Hauptverfasser:	Malkov, A V, Pershin, I M, Pomelyayko, I S
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Sprache:	eng
Schlagworte:	Approximation Aquifers Control systems Control systems design Dynamic characteristics Exact solutions Mathematical models Parameters Water intakes
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creator	Malkov, A V Pershin, I M Pomelyayko, I S
description	The hydrolytosphere as a multicomponent system is very complex in its structure. Management of hydrolysis processes involves consideration of three aspects: improving the methods for determining the parameters of hydraulic communication of aquifers, capacitive and filtration properties; improvement of methods for constructing mathematical models; development and improvement of principles and methods for constructing control systems for hydrolytospheric processes. It is known that mathematical models describing hydrolithospheric processes, as a rule, do not have an analytical solution. To describe the dynamic characteristics of the object under consideration, the structure of a non-standard approximating link is considered. The technique for determining the parameters of the link in question is used to describe the static and dynamic characteristics of the "production well-formation" process. The distributed hydrolithospheric process and the concentrated, scalar effect on this process are considered. The input influence on the control object is the production well output, the output function is the deviation of the level at the well sampling point. The parameters of the approximating link can be calculated either using the results of the experiment at the working well or using the simulation results of the process under consideration.
doi_str_mv	10.1088/1755-1315/272/2/022026
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subjects	Approximation Aquifers Control systems Control systems design Dynamic characteristics Exact solutions Mathematical models Parameters Water intakes
title	Designing a Control System for Underground Water Intakes
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