SMART LEAKAGE MONITORING SYSTEM WITH BLYNK IoT INTEGRATION USING ARDUINO

Authors

  • K. S. Krasnikova National Aviation University, Kyiv
  • V. A. Kopaniev National Aviation University, Kyiv
  • M. P. Vasylenko National Aviation University, Kyiv

DOI:

https://doi.org/10.18372/1990-5548.59.13639

Keywords:

Ultrasonic sensor, humidity sensor, water presence sensor, Blynk, pipeline, leakage detection, Arduino

Abstract

The article is devoted to the solution of the current problem of leaks in pipelines and minimizing their consequences. A practical experiment of wireless monitoring and control of an intelligent microgrid prototype was carried out, which was implemented using various communication protocols based on technical requirements, such as security, data rate, coverage area and program type. The prototype can be implemented using different communication protocols based on technical requirements such as security, data rates, coverage area and type of application. This article presents a methodology for the application of the Smart Water technology to detect water leakage. Analysis of real-time data has allowed the verification of water balance and the estimation of water losses level in the network. This data analysis methodology provides the capability to detect the pipe bursts quickly, thereby reducing the runtime of leakage.

Author Biographies

K. S. Krasnikova, National Aviation University, Kyiv

Aviation Computer-Integrated Complexes Department

Student

V. A. Kopaniev, National Aviation University, Kyiv

Aviation Computer-Integrated Complexes Department

Post-graduate student. Master

M. P. Vasylenko, National Aviation University, Kyiv

Aviation Computer-Integrated Complexes Department

Candidate of Science (Engineering). Associate Professor

orcid.org/0000-0003-4937-8082

References

N. A. Cloete, R. Malekian, and L. Nair, "Design of smart sensors for real-time water quality monitoring,'' IEEE Access, vol. 4, pp. 3975–3990, 2016.

L. Boaz, S. Kaijage, and R. Sinde, "An overview of pipeline leak detection and location systems,'' in Proc. IEEE Pan African Conf. Sci., Comput. Telecommun., Arusha, Tanzania, Jul. 2014, pp. 133-137.

Y. Jin and A. Eydgahi, "Monitoring of distributed pipeline systems by wireless sensor networks,'' in Proc. IAJC-IJME Int. Conf., Nashville, TN, USA, Nov. 2008, pp. 110.

R. Puust, Z. Kapelan, D. A. Savic, and T. Koppel, “A review of methods for leakage management in pipe networks,” Urban Water J., vol. 7, no. 1, pp. 25-45, 2010.

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Section

AUTOMATIC CONTROL SYSTEMS