Design and Implementation of an IoT-Based Electric Motor Vibration and Temperature Disruption Handling System
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Abstract
Faults in three-phase electric motors often occur in power plants. Unfortunately, the disturbances are unpredictable and reduce unit performance. This paper presents an Internet of Things (IoT) based intrusion handling system for secure and economic data communication in industrial fields. The build system can monitor and control with FLM (First Line Maintenance). FLM is a minor corrective maintenance activity carried out while the unit is operating with the provision of simple equipment. Device design and testing using the ESP8266 microcontroller module to obtain motor vibration, current, and temperature information for motor conditions supported by the application as a user interface. The result prevents further damage to the electric motor by adding an external fan and a grease pump that serves for additional engine cooling. This research contributes to improving the performance of the generator at PT. Indonesia Power UJP West Java II Palabuhanratu is one of the steam power plants in West Java, Indonesia
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Accepted 2020-04-29
Published 2020-05-31
References
V.S.D Rekha and Dr. K.Srinivasa Ravi "Induction Motor Condition Monitoring and Controlling Based on IoT" IJEECS, September 2017
Martin Ganchev, Bernhard Kubicek, Hansjoerg Kappeler," Rotor Temperature Monitoring System", XIX International Conference on Electrical Machines - ICEM 2010, Rome, 2010
D.Ganga and V. Ramachandran,"IoT based Vibration Analytics of Electrical Machines", IEEE,2017
S. S. Goundar, M. R. Pillai, K. A. Mamun, F.R.Islam, R. Deo,"Real Time Condition Monitoring System for Indutrial Motors", School of Engineering and Physics, Faculty of Science, Technology and Environment The University of the South Pacific Suva, Fuji, 2015
H. Hafezi, A. Jalilian, " Design and Contruction of Induction Motor Thermal Monitoring System", Iran University of Science and Technology, Tehran, Iran, 2006
Jakkrit Kunthong, Tirasak Sapaklom, Mongkol Konghirun, Cherdchai Prapanavarat, Piyasawat Navaratana Na Ayudhya, Ekkachai Mujjalinvimut, and Sampast Boonjeed, "IoT-Based Traction Motor Drive Condition Monitoring in Electric Vehicles: Part 1", 1Department of Electrical Engineering, King Mongkut's University of Technology Thonburi, Thailand 2Technology Leamchabang College, Chonburi, Thailand, IEEE PEDS 2017, Honolulu, USA
Mehmet GUNKAS, Ramazan AKKAYA, Ali OZTURK, " Protection of AC Motors by Means of Microcontrollers", Student Member IEEE
Xiao Qijun, Luo Zhonghui*, "Early Fault Diagnosis of the Rolling Bearing Based on the Weak Signal Detection Technology", dept. Faculty of Electronic Information and Mechanical & Electrical Engineering Zhaoqing University Zhaoqing, China, dept. Faculty of Mechanical and Electronic Guangdong Polytechnic Normal University Guangzhou, China, 2016 14th International Conference on Control, Automation, Robotics & Vision, Phuket, Thailand, 13-15th November 2016 (ICARCV 2016), 2016
Michele Roffi, Fernando J. T. E. Ferreira, Anibal T. De Almeida, "Comparison of Different Cooling Fan Designs for Electric Motors", Institute of Systems and Robotics, Department of Electrical and Computer Engineering, University of Coimbra, Portugal, 2017.
M. R. Mikhov et al. An application of wireless standards for remote monitoring of electric drive systems. International Journal of Engineering Research and Development 2.12 (2012): 30-36