Sistem Perbaikan Faktor Daya Otomatis Berbasis Microcontroller Pada Beban Listrik Kapal

Authors

  • Hafid Arrafi Politeknik Pelayaran Surabaya
  • Sri Mulyanto Politeknik Pelayaran Surabaya
  • Novrico Susanto Politeknik Pelayaran Surabaya
  • Edi Kurniawan Politeknik Pelayaran Surabaya

DOI:

https://doi.org/10.59581/jkts-widyakarya.v2i3.3253

Keywords:

Power factor, PZEM-004T, ESP32, Inductive load, Data logger

Abstract

Inductive loads on ships are loads that cause the power factor value to move away from 1.00, especially if the addition of this type of load exceeds the standard and the load is installed unbalanced, it can worsen the power factor value. A low power factor value results in soaring current values and reactive power, which often results in cable insulation burning and reduced efficiency. The aim of this research is to create a tool that can automatically correct low power factor values using a Capacitor Bank, PZEM-004T sensor and ESP32 controller at certain inductive loads and can monitor and record electrical load parameter data from various areas on the ship online and offline. This research uses a trial and error method. Based on the test results, this tool can automatically improve the power factor value of inductive loads in the form of TL lamps and electro motors to above 0.90 and the working current value of TL lamps can be reduced from 0.30-0.31 A to 0.17-0.18 A. Electro motors experience a decrease in current from 0.74-0.76 A to 0.66-0.68 A. This tool is also equipped with a system for monitoring and recording load parameter data using Google Spreadsheet when an internet connection is available. If an internet connection is not available, the recording will be transferred using Micro-SD.

References

Amir, H. LCD 20x4. Retrieved May 6, 2023, from https://www.scribd.com/doc/185920131/LCD-20X4

Darmaastawan, K., Saputra, K. O., & Wirastuti, N. M. A. E. D. (2021). Optimasi peran desa adat di Bali melalui teknologi informasi. Majalah Ilmiah Teknologi Elektro, 20(1), 161.

Hariyadi, E. B. (2015). Perbaikan faktor daya menggunakan kapasitor bank pada peralatan rumah tangga (Undergraduate thesis, Universitas Negeri Yogyakarta, Fakultas Teknik).

Hengki, P., & Syavira, D. L. (2020). Rancang bangun trainer kit sistem pembangkit listrik tenaga surya (PLTS) (Doctoral dissertation, Politeknik Manufaktur Negeri Bangka Belitung).

Irfan, et al. (2021). Sistem kendali dan monitoring faktor daya listrik berbasis mikrokontroler dan Internet of Things (IoT) [Online].

Md Abdullah Al Rakib, et al. (2021). Arduino based automatic power factor control. Bangladesh: City University-Bangladesh, Faculty of Science & Engineering.

Melipurbowo, B. G. (2016). Pengukuran daya listrik real time dengan menggunakan sensor arus ACS 712. Orbith: Majalah Ilmiah Pengembangan Rekayasa dan Sosial, 12(1).

Noor, F. A., Ananta, H., & Sunardiyo, S. (2017). Pengaruh penambahan kapasitor terhadap tegangan, arus, faktor daya, dan daya aktif pada beban listrik di minimarket. Teknik Elektro, 9(2), 67-68.

Pakpahan, I. S. (1987). Kontrol otomatik: Teori dan penerapan. Jakarta: Erlangga.

Pragmawati, K. (2016). Sistem kontrol peralatan elektronik rumah tangga menggunakan SMS gateway (Undergraduate thesis, Universitas Negeri Semarang).

Pratama, V. A. (2021). Rancang bangun data logger berbasis SD card pengukur suhu ruangan laboratorium di Balai Riset dan Standardisasi Industri Surabaya (Undergraduate thesis, Universitas Dinamika).

Putri, M. O. (2020). Rancang bangun sistem penyimpanan data di mikro SD untuk keperluan pengukuran besaran listrik berbasis mikrokontroler (Doctoral dissertation, Universitas Sumatera Utara).

Rahmah, A., Sukmasetya, P., Romadhon, M. S., & Adriansyah, A. R. (2020). Developing distance learning monitoring dashboard with Google Sheet: An approach for flexible and low-price solution in pandemic era. 7th International Conference on ICT for Smart Society (ICISS 2020) - Proceedings. https://doi.org/10.1109/ICISS50791.2020.9307558

Sankaran, C. (2002). Power quality. Florida: CRC Press.

Saputra, A. C. (2014). Rancang bangun perbaikan faktor daya otomatis berbasis smart relay pada jaringan tegangan rendah tiga fasa (Doctoral dissertation, Riau University).

Shiddieqy, A. A., & Pratiwi, S. (2021). Sistem kontrol perbaikan faktor daya pada pompa air berbasis Arduino (Unpublished doctoral dissertation). Politeknik Manufaktur Negeri Bangka Belitung, Fakultas Teknik.

Von Meier, A. (2006). Electric power systems: A conceptual introduction. Hoboken, NJ: IEEE Press/Wiley-Interscience.

Yendi, E., & Sigit, L. (2021). Analisa perbaikan faktor daya sistem kelistrikan. Jurnal Sains & Teknologi Fakultas Teknik, 11(1), 103-113.

Published

2024-05-22

How to Cite

Hafid Arrafi, Sri Mulyanto, Novrico Susanto, & Edi Kurniawan. (2024). Sistem Perbaikan Faktor Daya Otomatis Berbasis Microcontroller Pada Beban Listrik Kapal. Jurnal Kendali Teknik Dan Sains, 2(3), 50–63. https://doi.org/10.59581/jkts-widyakarya.v2i3.3253

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