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Bibliographic Details
Main Authors: Molnö, Victor, Sandberg, Henrik
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.10396
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author Molnö, Victor
Sandberg, Henrik
author_facet Molnö, Victor
Sandberg, Henrik
contents With the advent of integrated sensor technology (smart flow meters and pressure sensors), various new numerical algorithms for leak localization (a core element of water distribution system operation) have been developed. However, there is a lack of theory regarding the limitations of leak localization. In this work, we contribute to the development of such a theory by introducing an example water network structure with parallel pipes that is tractable for analytical treatment. We define the leak localization problem for this structure and show how many sensors and what conditions are needed for the well-posedness of the problem. We present a formula for the leak position as a function of measurements from these sensors. However, we also highlight the risk of finding false but plausible leak positions in the multiple pipes. We try to answer the questions of how and when the leaking pipe can be isolated. In particular, we show that nonlinearities in the pipes' head loss functions are essential for the well-posedness of the isolation problem. We propose procedures to get around the pitfall of multiple plausible leak positions.
format Preprint
id arxiv_https___arxiv_org_abs_2403_10396
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle On well-posedness of the leak localization problem in parallel pipe networks
Molnö, Victor
Sandberg, Henrik
Systems and Control
With the advent of integrated sensor technology (smart flow meters and pressure sensors), various new numerical algorithms for leak localization (a core element of water distribution system operation) have been developed. However, there is a lack of theory regarding the limitations of leak localization. In this work, we contribute to the development of such a theory by introducing an example water network structure with parallel pipes that is tractable for analytical treatment. We define the leak localization problem for this structure and show how many sensors and what conditions are needed for the well-posedness of the problem. We present a formula for the leak position as a function of measurements from these sensors. However, we also highlight the risk of finding false but plausible leak positions in the multiple pipes. We try to answer the questions of how and when the leaking pipe can be isolated. In particular, we show that nonlinearities in the pipes' head loss functions are essential for the well-posedness of the isolation problem. We propose procedures to get around the pitfall of multiple plausible leak positions.
title On well-posedness of the leak localization problem in parallel pipe networks
topic Systems and Control
url https://arxiv.org/abs/2403.10396