Use this url to cite publication: https://hdl.handle.net/20.500.14172/25072
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Investigation of hydrodynamic processes in geothermal plant
Type of publication
Straipsnis konferencijos medžiagoje Web of Science ir Scopus duomenų bazėje / Article in conference proceedings in Web of Science and Scopus database (P1a)
Type of document
type::text::conference output::conference proceedings::conference paper
Author(s)
LT | Vilniaus Gedimino technikos universitetas | LT | ||
LT | ||||
LT | ||||
LT | ||||
LT | ||||
Nikitin, Vadim | LT | Vilniaus Gedimino technikos universitetas | LT |
Title
Investigation of hydrodynamic processes in geothermal plant
Publisher
Barcelona : CIMNE, 2014
Date Issued
Date Issued | Start Page | End Page |
---|---|---|
2014-07-20 | 7361 | 7371 |
Is part of
11th World congress on computational mechanics (WCCM XI) ; 5th European conference on computational mechanics (ECCM V) ; 6th European conference on computational fluid dynamics (ECFD VI) : July 20-25, 2014, Barcelona, Spain
Field of Science
Abstract
During the experimental studies physical properties of underground water and gases mixture were analyzed and a correlation between pressure and gas content in liquid was determined. Correlation between pressure, temperature and other parameters (density, fluid bulk modulus, sound velocity) were determined with respect to the results of the experiments. It was determined that the amount of released gas directly correlates with increased liquid-gas mixture compressibility and slowed down hydrodynamic processes, which changes working properties of centrifugal pump – reduces the natural frequency of the system “subsurface centrifugal pump – pipe line/system”. Paper analyses an existing geothermal energy extraction system, which consists of a long pipe system and a large number of hydraulic and mechanical elements. Therefore, as the first step of the analysis, were decided to compile a mathematical model of the geothermal system, using the method of concentrated parameters. Mathematical models of asynchronous motor, multilevel depth centrifugal pump mechanical system, depth centrifugal pump (16 levels), absorption pump, piping system and other elements of geothermal energy extraction system were made. Also a universal mathematical model of depth centrifugal pump was made. Mathematical model of hydrodynamic processes of geothermal system (pumps, piping, heat exchangers and filters) was made. A numerical analysis of hydrodynamic equations of geothermal system was made.
ISBN (of the container)
9788494284472
WOS
000485094604034
Scopus
2-s2.0-84923950770
eLABa
4085805
Coverage Spatial
Ispanija / Spain (ES)
Language
Anglų / English (en)
Bibliographic Details
8
Project(s)
Simulation software and the investigation of thermo-hydrodynamic processes in the geothermal loop
Date Reporting
2014