Embedding monitoring systems for cured-in-place pipes

Enrico Napoli; Leonardo Mistretta; Antonino Valenza; Giuseppe Costantino Giaconia; Francesco Di Puma; Chiara Gianguzzi; Marco Lo Presti

Embedding monitoring systems for cured-in-place pipes

Enrico Napoli, Leonardo Mistretta, Antonino Valenza, Giuseppe Costantino Giaconia, Francesco Di Puma, Chiara Gianguzzi, Marco Lo Presti

Ingegneria

Risultato della ricerca: Conference contribution

1 Citazioni (Scopus)

Abstract

This paper proposes a non-intrusive electrical measurement system for monitoring some relevant parameters in pipeline systems. Temperature and flow-rate are monitored, using MEMS sensors. The flow-rate is evaluated by measuring pipe vibration, with a 3 axis accelerometer, induced by turbulence when fluid flows within the tube. The sensors are embedded, during the curing process of the cured-in-place pipes, in the pipes wall making the system suitable to be installed in renewed or new pipeline. The first experimental results show that it may be possible to obtain, at low-cost, a fully monitored distribution network.

Lingua originale	English
Titolo della pubblicazione ospite	Applications in Electronics Pervading Industry, Environment and Society
Pagine	12-17
Numero di pagine	6
Stato di pubblicazione	Published - 2017

Serie di pubblicazioni

Nome	LECTURE NOTES IN ELECTRICAL ENGINEERING

All Science Journal Classification (ASJC) codes

Industrial and Manufacturing Engineering

Accesso al documento

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Cita questo

Napoli, E., Mistretta, L., Valenza, A., Giaconia, G. C., Di Puma, F., Gianguzzi, C., & Lo Presti, M. (2017). Embedding monitoring systems for cured-in-place pipes. In Applications in Electronics Pervading Industry, Environment and Society (pagg. 12-17). (LECTURE NOTES IN ELECTRICAL ENGINEERING).

Embedding monitoring systems for cured-in-place pipes. / Napoli, Enrico ; Mistretta, Leonardo ; Valenza, Antonino ; Giaconia, Giuseppe Costantino; Di Puma, Francesco; Gianguzzi, Chiara; Lo Presti, Marco.

Applications in Electronics Pervading Industry, Environment and Society. 2017. pag. 12-17 (LECTURE NOTES IN ELECTRICAL ENGINEERING).

Risultato della ricerca: Conference contribution

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abstract = "This paper proposes a non-intrusive electrical measurement system for monitoring some relevant parameters in pipeline systems. Temperature and flow-rate are monitored, using MEMS sensors. The flow-rate is evaluated by measuring pipe vibration, with a 3 axis accelerometer, induced by turbulence when fluid flows within the tube. The sensors are embedded, during the curing process of the cured-in-place pipes, in the pipes wall making the system suitable to be installed in renewed or new pipeline. The first experimental results show that it may be possible to obtain, at low-cost, a fully monitored distribution network.",

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AU - Napoli, Enrico

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AU - Valenza, Antonino

AU - Giaconia, Giuseppe Costantino

AU - Di Puma, Francesco

AU - Gianguzzi, Chiara

AU - Lo Presti, Marco

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N2 - This paper proposes a non-intrusive electrical measurement system for monitoring some relevant parameters in pipeline systems. Temperature and flow-rate are monitored, using MEMS sensors. The flow-rate is evaluated by measuring pipe vibration, with a 3 axis accelerometer, induced by turbulence when fluid flows within the tube. The sensors are embedded, during the curing process of the cured-in-place pipes, in the pipes wall making the system suitable to be installed in renewed or new pipeline. The first experimental results show that it may be possible to obtain, at low-cost, a fully monitored distribution network.

AB - This paper proposes a non-intrusive electrical measurement system for monitoring some relevant parameters in pipeline systems. Temperature and flow-rate are monitored, using MEMS sensors. The flow-rate is evaluated by measuring pipe vibration, with a 3 axis accelerometer, induced by turbulence when fluid flows within the tube. The sensors are embedded, during the curing process of the cured-in-place pipes, in the pipes wall making the system suitable to be installed in renewed or new pipeline. The first experimental results show that it may be possible to obtain, at low-cost, a fully monitored distribution network.

UR - http://hdl.handle.net/10447/260754

UR - https://link.springer.com/chapter/10.1007/978-3-319-55071-8_2

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