Evolutionary Observer Ensemble for Leak Diagnosis in Water Pipelines

Navarro-Díaz, Adrián; Delgado-Aguiñaga, J.; Sánchez‐Torres, Juan Diego; Begovich, O.; Besançon, Gildas

doi:10.3390/pr7120913

Cited by 8 publications

(7 citation statements)

References 26 publications

(36 reference statements)

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“…Navarro et al [20] propose a method to detect, locate, and estimate the magnitude of leaks in a pipeline using only flow rate and pressure head measurements at both ends of the pipe. The method develops a mathematical model that builds an observer ensemble using genetic algorithms.…”

Section: Papers Presented In the Special Issuementioning

confidence: 99%

Recent Advances on Optimization for Control, Observation, and Safety

2020

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Section: Papers Presented In the Special Issuementioning

confidence: 99%

Recent Advances on Optimization for Control, Observation, and Safety

2020

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“…The accuracy of the results is determined by how close the mathematical model being developed is to reality. Many studies employed a model‐based approach for leak detection and diagnostics (LDD) but assuming incompressible or steady flows 8–11 . However, there has been no other study on leak detection and diagnostics for compressible and dynamics flows except that of Pan et al 12 Pan et al 12 developed an observer‐based leak detection system considering a 10 km natural gas pipeline that was subjected to process disturbance.…”

Section: Introductionmentioning

confidence: 99%

Gas pipeline safety management system based on neural network

Mujtaba

Lemma

Vandrangi

2022

Process Safety Progress

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The risk of leakage poses a grave threat to natural gas pipeline safety. The high compressibility of gases combined with unsteady boundary conditions makes detecting leaks in pipelines a challenging endeavor. To date, in the literature, only a limited number of studies have focused on leak detection and diagnostics in gas mixture pipelines. The present study provides a system for detecting, locating, and estimating the size of small gas leaks from a compressible and dynamic natural gas flow in pipelines with improved accuracy. As a case study, a long natural gas pipeline of 80 km is simulated with leak sizes of 0%, 2%, and 5%. The safety system is developed using mass flow rate, temperature, and pressure measurements. Six classes for faulty cases and one class for no fault case were considered for the study. A shallow neural network classifier (SNNC) is trained to identify a specific fault class. The SNNC is based on a two-layered network with 20 and 7 neurons. An input vector of 15 variables is provided to the system, and the output is one of the seven possible classes. Leakage as low as 2% at various locations are correctly diagnosed with more than 99% correct classification rate.

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“…Thus, once a leak is identified, the repair technicians can fix the leak and avoid the water loss. Many works that address the LDI problem for one leak have been reported [ 2 , 3 , 4 , 5 , 6 ]. For instance, in [ 2 ], a leak isolation methodology using a fitting loss coefficient calibration is presented on the basis of two stages: in the first stage, the equivalent straight length ( ESL ) is fixed by a model-based observer designed as an extended Kalman filter ( EKF ); in the second stage, an algebraic observer is started with the ESL value fixed by the previous observer.…”

Section: Introductionmentioning

confidence: 99%

“…In other words, the solution provided by the EKF is less accurate by itself. In [ 4 ], authors propose a bank of observers together with a Genetic Algorithm ( GA ), which is exploited to minimize the integration of the square observation error. The minimum integral observation error is reached in the observer where the estimated leak parameters match the real values.…”

Section: Introductionmentioning

confidence: 99%

Two Simultaneous Leak Diagnosis in Pipelines Based on Input–Output Numerical Differentiation

Navarro-Díaz

Delgado-Aguiñaga

Begovich

et al. 2021

Sensors

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This paper addresses the two simultaneous leak diagnosis problem in pipelines based on a state vector reconstruction as a strategy to improve water shortages in large cities by only considering the availability of the flow rate and pressure head measurements at both ends of the pipeline. The proposed algorithm considers the parameters of both leaks as new state variables with constant dynamics, which results in an extended state representation. By applying a suitable persistent input, an invertible mapping in x can be obtained as a function of the input and output, including their time derivatives of the third-order. The state vector can then be reconstructed by means of an algebraic-like observer through the computation of time derivatives using a Numerical Differentiation with Annihilatorsconsidering its inherent noise rejection properties. Experimental results showed that leak parameters were reconstructed with accuracy using a test bed plant built at Cinvestav Guadalajara.

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Evolutionary Observer Ensemble for Leak Diagnosis in Water Pipelines

Cited by 8 publications

References 26 publications

Recent Advances on Optimization for Control, Observation, and Safety

Recent Advances on Optimization for Control, Observation, and Safety

Gas pipeline safety management system based on neural network

Two Simultaneous Leak Diagnosis in Pipelines Based on Input–Output Numerical Differentiation

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