Thermal modes simulation of cooling panels in waste water pumping stations

Thermal modes simulation of cooling panels in waste water pumping stations

Introduction. Authors considers a new method of cooling some functional areas in a city sewage pumping station. They have used the works of Isachenko V.A., Osipov V.A., Sukomel A.S., Bogoslovsky V.N. to simulate the PLI panel’s stationary thermal regime. Materials and methods. Authors have consid...

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Autores principales: Vitaly I. Prohorov, Muhammet A. Razakov
Formato: article
Lenguaje:EN
RU
Publicado: Moscow State University of Civil Engineering (MGSU) 2021
Materias:
radiant panel
panel pli
similarity theory
waste water pumping station
thermal conditions
Architecture
NA1-9428
Construction industry
HD9715-9717.5
Acceso en línea:https://doaj.org/article/38ca95c3ae73492280912abac24b6747
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spelling oai:doaj.org-article:38ca95c3ae73492280912abac24b67472021-12-01T11:59:47ZThermal modes simulation of cooling panels in waste water pumping stations1997-093510.22227/1997-0935.2021.10.1378-1387https://doaj.org/article/38ca95c3ae73492280912abac24b67472021-10-01T00:00:00Zhttps://doi.org/10.22227/1997-0935.2021.10.1378-1387https://doaj.org/toc/1997-0935Introduction. Authors considers a new method of cooling some functional areas in a city sewage pumping station. They have used the works of Isachenko V.A., Osipov V.A., Sukomel A.S., Bogoslovsky V.N. to simulate the PLI panel’s stationary thermal regime. Materials and methods. Authors have considered the mathematical modeling of stationary and non-stationary thermal phenomena in the PLI panel in this paper. There are the possibilities of modeling the thermal modes of the panel PLI which depending on the place of installation of this device. Authors have given the theoretical characteristics of the heated air in this device and some results of survey in a high voltage urban waste water pumping station in Moscow. There are the heat inputs and heat losses calculations of PLI panel’s various structural elements which carried out using the theory of similarity in this article. Researchers considered the possibility of use other empirical results to determine some of the coefficients which involved in modeling. It has been presented different heat transfer coefficients which could be used in thermal conditions model of PLI panel. There are the validation of the developed models which proved by comparing the deviations in the heat balance equation of the PLI panel. Results. Authors has developed a physical and mathematical model of PLI panel’s thermal modes for a sewage pimping station. Authors have given the recommendations on the possibility of using the different heat transfer coefficients in PLI panel’s thermal conditions modeling process. A numerical experiment was carried out to simulate one PLI panel under the conditions of a sewage pumping station by researchers in this paper. Conclusions. According to the information, this physical and mathematical model can be used for engineering calculation when engineer is selecting the characteristics of PLI panel and also it could be used to clarifying the distributions of heat flow from PLI panel.Vitaly I. ProhorovMuhammet A. RazakovMoscow State University of Civil Engineering (MGSU)articleradiant panelpanel plisimilarity theorywaste water pumping stationthermal conditionsArchitectureNA1-9428Construction industryHD9715-9717.5ENRUVestnik MGSU , Vol 16, Iss 10, Pp 1378-1387 (2021)
institution DOAJ
collection DOAJ
language EN
RU
topic radiant panel
panel pli
similarity theory
waste water pumping station
thermal conditions
Architecture
NA1-9428
Construction industry
HD9715-9717.5
spellingShingle radiant panel
panel pli
similarity theory
waste water pumping station
thermal conditions
Architecture
NA1-9428
Construction industry
HD9715-9717.5
Vitaly I. Prohorov
Muhammet A. Razakov
Thermal modes simulation of cooling panels in waste water pumping stations
description Introduction. Authors considers a new method of cooling some functional areas in a city sewage pumping station. They have used the works of Isachenko V.A., Osipov V.A., Sukomel A.S., Bogoslovsky V.N. to simulate the PLI panel’s stationary thermal regime. Materials and methods. Authors have considered the mathematical modeling of stationary and non-stationary thermal phenomena in the PLI panel in this paper. There are the possibilities of modeling the thermal modes of the panel PLI which depending on the place of installation of this device. Authors have given the theoretical characteristics of the heated air in this device and some results of survey in a high voltage urban waste water pumping station in Moscow. There are the heat inputs and heat losses calculations of PLI panel’s various structural elements which carried out using the theory of similarity in this article. Researchers considered the possibility of use other empirical results to determine some of the coefficients which involved in modeling. It has been presented different heat transfer coefficients which could be used in thermal conditions model of PLI panel. There are the validation of the developed models which proved by comparing the deviations in the heat balance equation of the PLI panel. Results. Authors has developed a physical and mathematical model of PLI panel’s thermal modes for a sewage pimping station. Authors have given the recommendations on the possibility of using the different heat transfer coefficients in PLI panel’s thermal conditions modeling process. A numerical experiment was carried out to simulate one PLI panel under the conditions of a sewage pumping station by researchers in this paper. Conclusions. According to the information, this physical and mathematical model can be used for engineering calculation when engineer is selecting the characteristics of PLI panel and also it could be used to clarifying the distributions of heat flow from PLI panel.
format article
author Vitaly I. Prohorov
Muhammet A. Razakov
author_facet Vitaly I. Prohorov
Muhammet A. Razakov
author_sort Vitaly I. Prohorov
title Thermal modes simulation of cooling panels in waste water pumping stations
title_short Thermal modes simulation of cooling panels in waste water pumping stations
title_full Thermal modes simulation of cooling panels in waste water pumping stations
title_fullStr Thermal modes simulation of cooling panels in waste water pumping stations
title_full_unstemmed Thermal modes simulation of cooling panels in waste water pumping stations
title_sort thermal modes simulation of cooling panels in waste water pumping stations
publisher Moscow State University of Civil Engineering (MGSU)
publishDate 2021
url https://doaj.org/article/38ca95c3ae73492280912abac24b6747
work_keys_str_mv AT vitalyiprohorov thermalmodessimulationofcoolingpanelsinwastewaterpumpingstations
AT muhammetarazakov thermalmodessimulationofcoolingpanelsinwastewaterpumpingstations
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