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Markov-Based Reliability Assessment for Hydraulic Design of Concrete Stormwater Pipes

Tran, Huu D

AbstractThis study aims to assess the reliability of hydraulic performance of concrete pipes at the design stage. The reliability assessment is on the basis of the use of Markov chain theory for modeling pipe deterioration during service life and coefficient of variation (COV) for representing uncertainty in design, installation, and operational parameters. The results of a case study in this study show that increasing pipe diameter from 600 mm (as per current design) to 750 mm (as per reliability assessment) can significantly reduce the risk of hydraulic failure during service life and delay inspection and hydraulic rehabilitation by 10 years.

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Markov-Based Reliability Assessment for Hydraulic Design of Concrete Stormwater Pipes

Tran, Huu D

AbstractThis study aims to assess the reliability of hydraulic performance of concrete pipes at the design stage. The reliability assessment is on the basis of the use of Markov chain theory for modeling pipe deterioration during service life and coefficient of variation (COV) for representing uncertainty in design, installation, and operational parameters. The results of a case study in this study show that increasing pipe diameter from 600 mm (as per current design) to 750 mm (as per reliability assessment) can significantly reduce the risk of hydraulic failure during service life and delay inspection and hydraulic rehabilitation by 10 years.

Markov-Based Reliability Assessment for Hydraulic Design of Concrete Stormwater Pipes

Tran, Huu D

AbstractThis study aims to assess the reliability of hydraulic performance of concrete pipes at the design stage. The reliability assessment is on the basis of the use of Markov chain theory for modeling pipe deterioration during service life and coefficient of variation (COV) for representing uncertainty in design, installation, and operational parameters. The results of a case study in this study show that increasing pipe diameter from 600 mm (as per current design) to 750 mm (as per reliability assessment) can significantly reduce the risk of hydraulic failure during service life and delay inspection and hydraulic rehabilitation by 10 years.

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Title:

Markov-Based Reliability Assessment for Hydraulic Design of Concrete Stormwater Pipes

Contributors:

Tran, Huu D (author)

Published in:

Journal of hydraulic engineering ; 142

Publication date:

2016

ISSN:

DOI:

https://doi.org/10.1061/(ASCE)HY.1943-7900.0001130

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

Zeitschrift , Hydraulik

Classification:

BKL: 56.30 Wasserbau / 56.30
Local classification TIB: 770/6550

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