A Compact IIoT System for Remote Monitoring and Control of a Micro Hydropower Plant

Remote monitoring and operation evaluation applications for industrial environments are modern and easy means of exploiting the provided resources of specific systems. Targeted micro hydropower plant functionalities (such as tracking and adjusting the values of functional parameters, real-time fault and cause signalizing, condition monitoring assurance, and assessments of the need for maintenance activities) require the design of reliable and efficient devices or systems. The present work describes the design and implementation procedure of an Industrial Internet of Things (IIoT) system configured for a basic micro hydropower plant architecture and assuring simple means of customization for plant differences in structure and operation. The designed system features a set of commonly used functions specific to micro hydropower exploitation, providing maximum performance and efficiency.

[1]  Md. Habibur Rahman,et al.  Real-Time Energy Data Acquisition, Anomaly Detection, and Monitoring System: Implementation of a Secured, Robust, and Integrated Global IIoT Infrastructure with Edge and Cloud AI , 2022, Sensors.

[2]  Shumian Yang,et al.  WSNEAP: An Efficient Authentication Protocol for IIoT-Oriented Wireless Sensor Networks , 2022, Sensors.

[3]  D. García,et al.  Low-Cost Industrial IoT System for Wireless Monitoring of Electric Motors Condition , 2022, Journal on spesial topics in mobile networks and applications.

[4]  D. Selișteanu,et al.  A Configurable Monitoring, Testing, and Diagnosis System for Electric Power Plants , 2022, Sensors.

[5]  D. Lisjak,et al.  Condition Monitoring of Rotary Machinery Using Industrial IOT Framework , 2022, Tehnički glasnik.

[6]  D. Mcglinchey,et al.  Open Source IIoT Solution for Gas Waste Monitoring in Smart Factory , 2022, Sensors.

[7]  R. Bindu,et al.  Design and development of a novel multichannel data acquisition system using labview for an automobile air conditioning application , 2022, Journal of Thermal Engineering.

[8]  A. Irace,et al.  Fiber optic monitoring system ready for 4-20mA industrial control standard , 2021, 2021 IEEE Sensors.

[9]  Geoffrey Mark Kagarura,et al.  Low-Cost NB-IoT Microgrid Power Quality Monitoring System , 2021, Italian National Conference on Sensors.

[10]  D. Selișteanu,et al.  Using MQTT Protocol for Remote Monitoring of Low and Medium Power Electrical Network , 2021, International Conference on Engineering of Modern Electric Systems.

[11]  Izaskun Garrido Hernandez,et al.  Sensors Data Analysis in Supervisory Control and Data Acquisition (SCADA) Systems to Foresee Failures with an Undetermined Origin , 2021, Sensors.

[12]  Gautam A. Raiker,et al.  Energy Disaggregation Using Energy Demand Model and IoT-Based Control , 2021, IEEE Transactions on Industry Applications.

[13]  P. Medrano,et al.  UAS: IoT on-line sensors for power line inspection , 2020, 2020 IEEE Sensors.

[14]  Jens Anders,et al.  An IoT based low-cost heart rate measurement system employing PPG sensors , 2020, 2020 IEEE Sensors.

[15]  Kari Tammi,et al.  Open Sensor Manager for IIoT , 2020, J. Sens. Actuator Networks.

[16]  Sung Chan Jun,et al.  Simultaneous EEG Acquisition System for Multiple Users: Development and Related Issues , 2019, Sensors.

[17]  S. S. Sherekar,et al.  IoT Based Smart Home Automation System , 2019, International Journal for Research in Engineering Application & Management.

[18]  Marian-Ştefan Nicolae,et al.  Electrical Signal Data Acquisition and Recording Customized System, with High Sampling Rate, for Data Analysis Optimization of Three-Phase Power Supply Consumers , 2018, 2018 International Conference on Applied and Theoretical Electricity (ICATE).

[19]  Fernando Boavida,et al.  Industrial IoT Monitoring: Technologies and Architecture Proposal , 2018, Sensors.

[20]  Alejandro González,et al.  A Low-Cost Data Acquisition System for Automobile Dynamics Applications , 2018, Sensors.

[21]  Peter Burnap,et al.  SCADA System Forensic Analysis Within IIoT , 2017 .

[22]  Maurizio Di Paolo Emilio,et al.  Data Acquisition Systems: From Fundamentals to Applied Design , 2013 .

[23]  Darek Bober,et al.  Distributed system for data acquisition and management of electric energy consumption , 2009, 2009 IEEE International Workshop on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications.

[24]  J. Smith,et al.  A low cost data acquisition system for small field of view gamma cameras , 2007, 2007 IEEE Nuclear Science Symposium Conference Record.

[25]  Dilip B. Kotak,et al.  Distributed data acquisition and monitoring system for an integrated energy application , 2005, 2005 IEEE International Conference on Systems, Man and Cybernetics.

[26]  Amr M. T. Ali-Eldin,et al.  An Industrial Cloud-based IoT System for Real-time Monitoring and Controlling of Wastewater , 2022, IEEE Access.

[27]  Marjan Golob,et al.  IIoT Laboratory Model for Remote Control System Applications , 2021, REV.

[28]  Takahiro Uchiya,et al.  Industrial Internet of Things (IIoT): Principles, Processes and Protocols , 2019, The Internet of Things in the Industrial Sector.

[29]  V. Badri Rama Krishnan,et al.  An optimised system for energy monitoring and data acquisition in substations/domestic applications using IoT , 2019, E3S Web of Conferences.