Protection System for Electrical Loads of Administration Building in Controlling Voltage Variations Due to Over-Voltage and Under-Voltage

Authors

  • John Bryan S. Camacho Don Honorio Ventura State University Author
  • Erlan L. Cinense Don Honorio Ventura State University Author
  • Christian Philip P. De Guzman Don Honorio Ventura State University Author
  • Gian Irby L. Garcia Don Honorio Ventura State University Author
  • Engr. Freneil R. Pampo Don Honorio Ventura State University Author
  • Engr. Errol M. Canlas Don Honorio Ventura State University Author

Keywords:

Over-voltage, Protection, Under-voltage

Abstract

The purpose of this study is to focus on producing a protection system design for the electrical loads of administration buildings from over and under voltage. An on-site voltage reading has been initiated and continued for several days to determine whether voltage variation is occurring in the location. The building’s load schedule has served as a point of reference in calculating the appropriate size of wire and Molded Case Circuit Breaker ampere rating. For the proponents to understand the design standards, the Philippine Electrical Code is used as a reference. Consequently. The design that has been made and proposed is for controlling over and under voltages. The power supply at the Administration building can be transferred over to the other power supply coming from a generator set. The voltage readings in the Admin Office MDP range from 218.55 to 231.03 V. The other one on the General Office MDP is from 219 to 230.48 V, showing that no over-voltage and under-voltage is happening in the building and normal working voltages are delivered on the electrical loads. Thus, the electrical loads in the building are safe from voltage variations.

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Author Biographies

  • John Bryan S. Camacho, Don Honorio Ventura State University

    Department of Electrical Engineering

  • Erlan L. Cinense, Don Honorio Ventura State University

    Department of Electrical Engineering

  • Christian Philip P. De Guzman, Don Honorio Ventura State University

    Department of Electrical Engineering

  • Gian Irby L. Garcia, Don Honorio Ventura State University

    Department of Electrical Engineering

  • Engr. Freneil R. Pampo, Don Honorio Ventura State University

    Department of Electrical Engineering

  • Engr. Errol M. Canlas, Don Honorio Ventura State University

    Department of Electrical Engineering

References

Bhosale, G., Vakhare, A., Kaystha, A., Aher, A., and Pansare, V. (2018). Over voltage, under voltage protection of electrical equipment. International Research Journal of Engineering and Technology (IRJET), 5(2), 29-32.

Fadaeenejad, M., Saberian, A. M., Fadaee, M., Radzi, M. A. M., Hizam, H., and AbKadir, M. Z. A. (2014). The present and future of smart power grid in developing countries. Renewable and Sustainable Energy Reviews, 29, 828-834.

Johnson, D. O., and Hassan, K. A. (2016). Issues of power quality in electrical systems. International Journal of Energy and Power Engineering, 5(4), 148-154.

Mousavi, S. Y. M., Jalilian, A., Savaghebi, M., and Guerrero, J. M. (2018). Coordinated control of multifunctional inverters for voltage support and harmonic compensation in a grid-connected microgrid. Electric Power Systems Research, 155, 254-264.

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Published

2024-02-06

Issue

Vol. 3 No. 3 (2023): AJSE: December 2023

Section

Articles

License

Copyright (c) 2023 Universitas Pendidikan Indonesia

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

How to Cite

Protection System for Electrical Loads of Administration Building in Controlling Voltage Variations Due to Over-Voltage and Under-Voltage. (2024). ASEAN Journal of Science and Engineering, 3(3), 259-270. https://ejournal.kjpupi.id/index.php/ajse/article/view/336