Leakproofness of the reinforced concrete tank for water with a capacity of 45000 m3

The clean water tank discussed consists of four reinforced concrete tanks. The structure is symmetrical for each of the tank pairs, which consist of two storage tanks and two water transfer tanks for the water supply network. All chambers are technologically connected with each other. The tanks are...

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Main Authors: Maciej Y. Minch, Kmita Andrzej
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2019/33/matecconf_icsf2019_06006.pdf
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spelling doaj-0a7f12f2cc574133873acbc5625ee0982021-02-02T04:09:07ZengEDP SciencesMATEC Web of Conferences2261-236X2019-01-012840600610.1051/matecconf/201928406006matecconf_icsf2019_06006Leakproofness of the reinforced concrete tank for water with a capacity of 45000 m3Maciej Y. Minch0Kmita Andrzej1TU of Wroclaw, Civil Engineering departmentTU of Wroclaw, Civil Engineering departmentThe clean water tank discussed consists of four reinforced concrete tanks. The structure is symmetrical for each of the tank pairs, which consist of two storage tanks and two water transfer tanks for the water supply network. All chambers are technologically connected with each other. The tanks are partially recessed in the ground, monolithic, and completely roofed. The projection of chambers within external walls is 96 x 96 m = 9,216 m2. The total capacity of internal chambers and external chambers is about 45,000 m3. The clean water tank was made as a reinforced concrete structure, monolithic. The owner of the facility observed significant losses of stored water, which translated into large financial losses of the company. In order to determine the current technical condition of the reservoir and the causes of its leakage, a comprehensive, multi-level analysis was carried out in terms of strength, stability and durability of the structure. A few dozens of samples were taken at random, and the compressive strength of the concrete, modulus of longitudinal deformation and degree of carbonatization were evaluated. For the assessment of the technical condition of the expansion joints, boreholes were also drilled through them. On the basis of the results obtained from the tests, numerical analysis of the stress on the structure and its deformations was performed in order to select the most stressed areas as well as to assess expansion deformations as potential spots of the largest leaks. The results of the analysis were used to prepare the concept of sealing repairs of the tank chambers.https://www.matec-conferences.org/articles/matecconf/pdf/2019/33/matecconf_icsf2019_06006.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Maciej Y. Minch
Kmita Andrzej
spellingShingle Maciej Y. Minch
Kmita Andrzej
Leakproofness of the reinforced concrete tank for water with a capacity of 45000 m3
MATEC Web of Conferences
author_facet Maciej Y. Minch
Kmita Andrzej
author_sort Maciej Y. Minch
title Leakproofness of the reinforced concrete tank for water with a capacity of 45000 m3
title_short Leakproofness of the reinforced concrete tank for water with a capacity of 45000 m3
title_full Leakproofness of the reinforced concrete tank for water with a capacity of 45000 m3
title_fullStr Leakproofness of the reinforced concrete tank for water with a capacity of 45000 m3
title_full_unstemmed Leakproofness of the reinforced concrete tank for water with a capacity of 45000 m3
title_sort leakproofness of the reinforced concrete tank for water with a capacity of 45000 m3
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2019-01-01
description The clean water tank discussed consists of four reinforced concrete tanks. The structure is symmetrical for each of the tank pairs, which consist of two storage tanks and two water transfer tanks for the water supply network. All chambers are technologically connected with each other. The tanks are partially recessed in the ground, monolithic, and completely roofed. The projection of chambers within external walls is 96 x 96 m = 9,216 m2. The total capacity of internal chambers and external chambers is about 45,000 m3. The clean water tank was made as a reinforced concrete structure, monolithic. The owner of the facility observed significant losses of stored water, which translated into large financial losses of the company. In order to determine the current technical condition of the reservoir and the causes of its leakage, a comprehensive, multi-level analysis was carried out in terms of strength, stability and durability of the structure. A few dozens of samples were taken at random, and the compressive strength of the concrete, modulus of longitudinal deformation and degree of carbonatization were evaluated. For the assessment of the technical condition of the expansion joints, boreholes were also drilled through them. On the basis of the results obtained from the tests, numerical analysis of the stress on the structure and its deformations was performed in order to select the most stressed areas as well as to assess expansion deformations as potential spots of the largest leaks. The results of the analysis were used to prepare the concept of sealing repairs of the tank chambers.
url https://www.matec-conferences.org/articles/matecconf/pdf/2019/33/matecconf_icsf2019_06006.pdf
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