IoT-Enabled Dual-Modality Sensor Network for Multiphase Flow Monitoring

Natan S. Reginaldo; Elcilane A. Freitas; Pedro L. O. Machado; Rafaella C. Silva; Moises A. Marcelino Neto; Rigoberto E. M. Morales; Marco Da Silva; Eduardo Nunes dos Santos

IoT-Enabled Dual-Modality Sensor Network for Multiphase Flow Monitoring

Natan S. Reginaldo^*
, Elcilane A. Freitas
, Pedro L. O. Machado
, Rafaella C. Silva
, Moises A. Marcelino Neto
, Rigoberto E. M. Morales
, Marco Da Silva
, Eduardo Nunes dos Santos

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Elektrische Messtechnik

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

Abstract

This paper introduces an IoT-enabled distributed dual-modality impedance sensor system to monitor multiphase flow by collecting data from multiple locations along a pipeline. By measuring conductive and/or capacitive electrical properties, it is possible to monitor a broader spectrum of multiphase mixtures. The distributed architecture, supported by IoT connectivity, allows synchronized monitoring across different points in the pipeline, capturing local variations and providing real-time insights into transient phenomena. The system was evaluated in a flushing process experiment, where saline water was displaced by tap water in 10 m and 20 m horizontal pipelines. The sensors tracked the displacement front and provided real-time concentration data. CFD simulations of the process were also performed with good agreement with experimental data. Thus, developed sensor system shows potential for providing data to improve the understanding of flow dynamics and validation of CFD predictions. As for the sensors, they show scalability for industrial applications.

Originalsprache	Englisch
Titel	Proceedings of ICMF2025
Auflage	1
Publikationsstatus	Veröffentlicht - 2025

Wissenschaftszweige

202016 Elektrotechnik
202015 Elektronik
202012 Elektrische Messtechnik
202027 Mechatronik
211908 Energieforschung
202024 Lasertechnik
202036 Sensorik
203016 Messtechnik
202021 Industrielle Elektronik

JKU-Schwerpunkte

Digital Transformation

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https://www.conftool.net/icmf2025/index.php/Reginaldo-IoT-Enabled_Dual-Modality_Sensor_Network_for_Multiphase_Flow_Monitoring-1219.pdf?page=downloadPaper&filename=Reginaldo-IoT-Enabled_Dual-Modality_Sensor_Network_for_Multiphase_Flow_Monitoring-1219.pdf&form_id=1219Lizenz: Nicht angegeben

IoT-Enabled Dual-Modality Sensor Network for Multiphase Flow Monitoring
Da Silva, M. (Vortragende*r)
14 Mai 2025
Aktivität: Vortrag oder Präsentation › Vortrag nach Bewerbung und Auswahl › Science-to-science

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Reginaldo, N. S., Freitas, E. A., Machado, P. L. O., Silva, R. C., A. Marcelino Neto, M., E. M. Morales, R., Da Silva, M., & Nunes dos Santos, E. (2025). IoT-Enabled Dual-Modality Sensor Network for Multiphase Flow Monitoring. in Proceedings of ICMF2025 (1 Aufl.) https://www.conftool.net/icmf2025/index.php/Reginaldo-IoT-Enabled_Dual-Modality_Sensor_Network_for_Multiphase_Flow_Monitoring-1219.pdf?page=downloadPaper&filename=Reginaldo-IoT-Enabled_Dual-Modality_Sensor_Network_for_Multiphase_Flow_Monitoring-1219.pdf&form_id=1219

@inproceedings{a65ace4fb3a54755920365d82db1c712,

title = "IoT-Enabled Dual-Modality Sensor Network for Multiphase Flow Monitoring",

abstract = "This paper introduces an IoT-enabled distributed dual-modality impedance sensor system to monitor multiphase flow by collecting data from multiple locations along a pipeline. By measuring conductive and/or capacitive electrical properties, it is possible to monitor a broader spectrum of multiphase mixtures. The distributed architecture, supported by IoT connectivity, allows synchronized monitoring across different points in the pipeline, capturing local variations and providing real-time insights into transient phenomena. The system was evaluated in a flushing process experiment, where saline water was displaced by tap water in 10 m and 20 m horizontal pipelines. The sensors tracked the displacement front and provided real-time concentration data. CFD simulations of the process were also performed with good agreement with experimental data. Thus, developed sensor system shows potential for providing data to improve the understanding of flow dynamics and validation of CFD predictions. As for the sensors, they show scalability for industrial applications.",

author = "Reginaldo, \{Natan S.\} and Freitas, \{Elcilane A.\} and Machado, \{Pedro L. O.\} and Silva, \{Rafaella C.\} and \{A. Marcelino Neto\}, Moises and \{E. M. Morales\}, Rigoberto and \{Da Silva\}, Marco and \{Nunes dos Santos\}, Eduardo",

year = "2025",

language = "English",

booktitle = "Proceedings of ICMF2025",

edition = "1",

}

Reginaldo, NS, Freitas, EA, Machado, PLO, Silva, RC, A. Marcelino Neto, M, E. M. Morales, R, Da Silva, M & Nunes dos Santos, E 2025, IoT-Enabled Dual-Modality Sensor Network for Multiphase Flow Monitoring. in Proceedings of ICMF2025. 1 Aufl. <https://www.conftool.net/icmf2025/index.php/Reginaldo-IoT-Enabled_Dual-Modality_Sensor_Network_for_Multiphase_Flow_Monitoring-1219.pdf?page=downloadPaper&filename=Reginaldo-IoT-Enabled_Dual-Modality_Sensor_Network_for_Multiphase_Flow_Monitoring-1219.pdf&form_id=1219>

TY - GEN

T1 - IoT-Enabled Dual-Modality Sensor Network for Multiphase Flow Monitoring

AU - Reginaldo, Natan S.

AU - Freitas, Elcilane A.

AU - Machado, Pedro L. O.

AU - Silva, Rafaella C.

AU - A. Marcelino Neto, Moises

AU - E. M. Morales, Rigoberto

AU - Da Silva, Marco

AU - Nunes dos Santos, Eduardo

PY - 2025

Y1 - 2025

N2 - This paper introduces an IoT-enabled distributed dual-modality impedance sensor system to monitor multiphase flow by collecting data from multiple locations along a pipeline. By measuring conductive and/or capacitive electrical properties, it is possible to monitor a broader spectrum of multiphase mixtures. The distributed architecture, supported by IoT connectivity, allows synchronized monitoring across different points in the pipeline, capturing local variations and providing real-time insights into transient phenomena. The system was evaluated in a flushing process experiment, where saline water was displaced by tap water in 10 m and 20 m horizontal pipelines. The sensors tracked the displacement front and provided real-time concentration data. CFD simulations of the process were also performed with good agreement with experimental data. Thus, developed sensor system shows potential for providing data to improve the understanding of flow dynamics and validation of CFD predictions. As for the sensors, they show scalability for industrial applications.

AB - This paper introduces an IoT-enabled distributed dual-modality impedance sensor system to monitor multiphase flow by collecting data from multiple locations along a pipeline. By measuring conductive and/or capacitive electrical properties, it is possible to monitor a broader spectrum of multiphase mixtures. The distributed architecture, supported by IoT connectivity, allows synchronized monitoring across different points in the pipeline, capturing local variations and providing real-time insights into transient phenomena. The system was evaluated in a flushing process experiment, where saline water was displaced by tap water in 10 m and 20 m horizontal pipelines. The sensors tracked the displacement front and provided real-time concentration data. CFD simulations of the process were also performed with good agreement with experimental data. Thus, developed sensor system shows potential for providing data to improve the understanding of flow dynamics and validation of CFD predictions. As for the sensors, they show scalability for industrial applications.

M3 - Conference proceedings

BT - Proceedings of ICMF2025

ER -

IoT-Enabled Dual-Modality Sensor Network for Multiphase Flow Monitoring

Abstract

Wissenschaftszweige

JKU-Schwerpunkte

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Aktivitäten

IoT-Enabled Dual-Modality Sensor Network for Multiphase Flow Monitoring

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