Embedded sensor platform for remote monitoring of water quality

Authors

DOI:

https://doi.org/10.19180/2177-4560.v19n12025p113-127

Keywords:

Arduino, Sensor Testing, CBHLSJ

Abstract

Water quality is a critical parameter for public health, environmental preservation, and various industrial activities. Continuous monitoring of parameters such as turbidity, pH, temperature, and total dissolved solids (TDS) is essential to ensure that water meets the required standards for different uses. This paper describes the integration of commercial sensors in the implementation of a data acquisition system to monitor these parameters in a water body, using Arduino and NodeMCU V3 hardware platforms.

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Author Biographies

  • Dalson Ribeiro Nunes, Instituto Federal Fluminense
    Tecnólogo em Telecomunicações (Universidade Estácio de Sá, UNESA, Brasil). Professor de Eletrônica e Telecomunicações / Coordenador de Laboratórios do Instituto Federal Fluminense.
  • Marcos Antonio Cruz Moreira, Instituto Federal do Fluminense
    Doutor em Engenharia Elétrica pela Universidade Federal do Rio de Janeiro (UFRJ). Professor Titular do Instituto Federal de Educação, Ciência e Tecnologia Fluminense (IFFluminense), Campus Macaé - Macaé/RJ – Brasil.
  • Luís Felipe Umbelino dos Santos, Instituto Federal do Fluminense
    Doutorado em Ecologia pela Universidade Federal do Rio de Janeiro (2008), Mestrado em Geografia pela Universidade Federal Fluminense (2004).  Professor permanente dos Cursos de Pós-Graduação em Engenharia Ambiental e Doutorado em Modelagem e Tecnologia para Meio Ambiente Aplicadas em Recursos Hídricos no Instituto Federal do Fluminense.

References

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ATLAS SIENTIFIC pH Sensor Datasheet. Documentação, 2016. Disponível em: <https://www.atlas-scientific.com/_files/_datasheets/_sensor/pH_EZO_datasheet.pdf> acesso em 12.03.2024

BUYYA, R.; DASTIERDI, A;V; Internet of Things: Principles and paradigms. Elsevier, 2016. ISBN: 978-0128053959.

CBH LAGOS SÃO JOAO. Comitê de Bacia da Região Lagos-São João (2023). Centro de Biologia Experimental Oceanus. Monitoramento da Qualidade da Água dos Corpos Hídricos da Região Hidrográfica Lagos São João – RH VI. Disponível em < https://cbhlagossaojoao.org.br/wp-content/uploads/2023/04/Relatorio_Campanha_03_CILSJ_rev01.pdf> acesso em 12.12.2024

CBH MACAÉ RIO DAS OSTRAS. Comitê de Bacias dos Rios Macaé e das Ostras (2024). Centro de Biologia Experimental Oceanus. Estudo de Avaliação do Índice de Qualidade da Água (IQA) e Salinidade da Bacia do Rio das Ostras. Disponível em < https://comitemacaeostras.org.br/wp-content/uploads/2024/06/20240605165514_4YS5LJJC7C6_Relatorio_CILSJ-RO_Oceanus_C6_rev01.pdf > acesso em 12.12.2024.

DFROBOT. Turbidity Sensor SKU. . Disponível em: <https://wiki.dfrobot.com/Turbidity_sensor_S KU__SEN0189> acesso em 23.02.2024

DFROBOT. Gravity: Analog TDS Sensor/Meter for Arduino. Documentação, 2020. Disponível em: <https://wiki.dfrobot.com/Gravity__Analog_TDS_Sensor___Meter_For_Arduino_SKU__SEN0244> acesso em 23.02.2024

HART, J.K.; MARTINEZ, K.; Environmental sensor networks: A revolution in the earth system science? Earth-Science Reviews 78.3-4 (2006): 177-191.

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Published

15-04-2025

Issue

Vol. 19 No. 1 (2025): Boletim do Observatório Ambiental - IFF

Section

Original articles

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Copyright (c) 2025 Dalson Ribeiro Nunes, Marcos Antonio Cruz Moreira, Luis Felipe Umbelino dos Santos

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How to Cite

Embedded sensor platform for remote monitoring of water quality. Boletim do Observatório Ambiental Alberto Ribeiro Lamego, [S. l.], v. 19, n. 1, p. 113–127, 2025. DOI: 10.19180/2177-4560.v19n12025p113-127. Disponível em: https://editoraessentia.iff.edu.br/index.php/boletim/article/view/23463.. Acesso em: 20 apr. 2025.