International Journal of Smart Grid - ijSmartGrid

When the inductive load is brought into the industry, it is known that the power factor will drop. The electricity cost will be greater if the power factor is decreased. When power factor drops in our system, the automated capacitor bank is activated, and power factor is restored to a predetermined level. The unique element of our project is that an IoT (Internet of Things) technology was used to complete it. It will be able to monitor and operate the project from any place on the Internet, in addition to monitoring from the project display. As a programming device, it has been utilized an Arduino Uno Microcontroller. The PF may be improved to increase current-carrying capacity, enhance voltage to equipment, minimize power losses, and cut electric costs. Reactive current generators are PF correction capacitors. We contribute to increasing the power factor by helping to balance the nonworking power used by inductive loads. In this article, the power factor of a load is measured using an ArduinoUno microcontroller, which then triggers the appropriate capacitors to correct for reactive power and bring the power factor closer to unity.

A.R.D. Shirly, K.Vijayaragavan , R.V. Chander , M.Santhosh, M.P. Kumar. "Dynamic compensation of reactive power: comparitive analysis of power factor correction techniques, pp. 67-87."

K. Naresh , T. Kumar , Md. Sameer , S. Reddy K. "Arduino-based auto power factor correction using Optocouplers and Capacitive Load Banks, pp. 172-176.”

M. S. S. PRASAD , P. K. KHAN , R. V.S. KUMAR , K. PANDARINADH , G. SRINIVAS. "Automated Power Factor Correction And Monitoring System."pp. 87-93 (2020).

P. Nanda, S. Rathod , B. Halapeti , D. Poojari , G. Math , S. Jalageri, "Automatic Power Factor Correction Using ATmega328."

K. Balamurugan, M. Gowsika, T. Monika, N. Naveen. "Power Factor Correction Using Sepic Dc-Dc Converter in Industrial Motor Drives." Ch.4, pp. 34-39.

R. Dhameliya , K. Domadiya , P. Miyani , H. Savaliya , P. Jariwala. "Automatic power factor control using arduino uno." International Journal of Advance Engineering and Research Development (IJAERD) 4.4 (2017).

P.P. Machado , T. P. Abud , M. Z. Fortes , B. S, M, C, Borba . "Power factor metering system using Arduino." 2017 IEEE Workshop on Power Electronics and Power Quality Applications (PEPQA). IEEE, 2017.

M. B. Khan, M. Owais, "Automatic power factor correction unit." 2016 International Conference on Computing, Electronic and Electrical Engineering (ICE Cube). IEEE, 2016.

N.H. Ishak, M.N. Zainodin, N.A. Salim, F.M.T. Tawi, A. H. Mohd Saod. "A design of an automatic single phase power factor controller by using Arduino uno Rev-3." Applied Mechanics and Materials. Vol. 785. Trans Tech Publications Ltd, 2015.

W. Ali, H. Farooq , M. Jamil , A. Rehman, R. Taimoor, M. Ahmad . "Automatic Power Factor Correction for Single Phase Domestic Loads by Means of Arduino Based TRIAC Control of Capacitor Banks." 2018 2nd International Conference on Energy Conservation and Efficiency (ICECE). IEEE, 2018.

Y. Kabir, Y. Mohammad Mohsin and M.M. Khan. "Automated power factor correction and energy monitoring system." 2017 Second International Conference on Electrical, Computer and Communication Technologies (ICECCT). IEEE, 2017.

T. S. Gunawan, M. H. Anuar, M. Kartiwi, Z. Janin. "Development of Power Factor Meter using Arduino." 2018 IEEE 5th International Conference on Smart Instrumentation, Measurement and Application (ICSIMA). IEEE, 2018.

S.B. Jarad, V. D. Lohar, S. P. Choukate, S. D. Mangate. "Automatic Optimization and Control of Power Factor, Reactive Power and Reduction of THD for Linear and Nonlinear Load by Using Arduino UNO." 2018 Second International Conference on Inventive Communication and Computational Technologies (ICICCT). IEEE, 2018.

M. M. Than, "Implementation of Power Factor Correction Using Solid State Switched Capacitors." IOSR J. Electr. Electron. Eng. 11.04 (2016): pp. 70-79.

S. Mane, R. Sapat, P. Kor, J. Shelar, R.D. Kulkarni, J. Mundkar. "Microcontroller based Automatic Power Factor Correction System for Power Quality Improvement." 2020 International Conference for Emerging Technology (INCET). IEEE, 2020.

G. W. Chugulu, F. Simba, S. Lujara. "Proposed Practical Communication Architecture for Automatic Fault Detection and Clearance in Secondary Distribution Power Network." International Journal of Smart Grid-ijSmartGrid 4.4 (2020): 164-175.

H. A. Illias, N. S. Ishak, N. A. M.N. Alam. "Awareness of Secondary School Students in Petaling Jaya Malaysia Towards Renewable Energy." International Journal of Renewable Energy Research (IJRER) 10.4 (2020): 1645-1654.

G. Soufiane , F. Ouafia , A. Ahmed. "Solar Power Time Series Prediction Using Wavelet Analysis." International Journal of Renewable Energy Research (IJRER) 10.4 (2020): 1764-1773.

Y. E. A. Eldahab , N. H. Saad , A. Zekry. "Enhancing the Energy Utilization of Hybrid Renewable Energy Systems." International Journal of Renewable Energy Research (IJRER) 10.4 (2020): 1974-1987.

R. Meligy , M. Rady , A. E. Samahy , W. Mohamed , F. Paredes , F. Montagnino. "Simulation and control of linear Fresnel reflector solar plant." Int. J. Renew. Energy Res 9.2 (2019): 804-812.

M. S. Mahamud , M. A. A. Rakib , T. M. Faruqi , M. Haque, S. A. Rukaia , S. Nazmi. "Mouchak-An IoT Basted Smart Beekeeping System Using MQTT." 2019 4th International Conference on Robotics and Automation Engineering (ICRAE). IEEE, 2019.

M.A.A. Rakib, M. T. Ali, M. S. Mahamud, T. M. Faruqi, S. A. Rukaia, M. Haque. "Energy Harvesting Technology from Human Motion." 2020 2nd International Conference on Advanced Information and Communication Technology (ICAICT). IEEE, 2020.

M.H.K. Khan and M.A.A. Rakib. "Implementation of Inverse Define Minimum Time Under and Over Voltage Relay." International Journal of Smart Grid-ijSmartGrid 5.2 (2021): 88-93.

M. H. K. Khan, S. Uddin, M. M. Rahman and M. A.A. Rakib. "Pure Sine Wave Inverter Design for Street Light Emergency Backup System."

M.A. A. Rakib, M. S. Rana, M. M. Rahman and F. I. Abbas. "Dry and Wet Waste Segregation and Management System." European Journal of Engineering and Technology Research 6.5 (2021): 129-133.

M.A.A. Rakib , S. Ahmad , T. M. Faruqi , M. Haque , S. A. Rukaia , and S. Nazmi. "Design and Simulation-Based Parametric Studies of a Compact Ultra-Wide Band Antenna for Wireless Capsule Endoscopy System at Inside Body Environment." International Journal of Electrical and Electronic Engineering & Telecommunications (2021).

S. Ahmad, R. R. Hasan, R. Hasan, M.A.A. Rakib, M. A. Hasan, M. Zubayar. "A low SAR in-body antenna for wireless monitoring purpose of pacemaker system." 2019 4th International Conference on Electrical Information and Communication Technology (EICT). IEEE, 2019.