Rancang Bangun Sistem Monitoring Suhu dan Kelembapan serta Kendali Dua Heater pada Kubikel 20 kV Berbasis Sistem Informasi Geografis

  • Arief Rahmadani Politeknik Elektronika Negeri Surabaya
  • Novie Ayub Windarko Politeknik Elektronika Negeri Surabaya
  • Lucky Pradigta Setiya Raharja Politeknik Elektronika Negeri Surabaya

Abstract

One of the disturbances that occur in the medium-voltage switchgear or cubicle 20 kV one of the disturbances that occur in cubicle 20 kV is when the temperature and humidity conditions are high, then one-day water vapor will arise that sticks to the cubicle wall and affects the corona. Therefore, the cubicle has a heater to heat the space to maintain the humidity. However, when in the field, the heater performance condition is often less than optimal and does not work. Under these conditions, a temperature and humidity monitoring system and a control system for two heaters are needed to prevent damage to the heater. The system is built using the STM32F103C8T6 microcontroller, the DHT-22 sensor is equipped with an exhaust fan to maintain the cubicle termination room temperature. The minimum permissible temperature parameter is 35 C to a maximum limit of 40 C with humidity below 90% following the cubicle brand datasheet, Schneider, and IEC 62271-1 standard. Furthermore, the data from the monitoring can be displayed on the LCD and a website-based Geographic Information System. With this tool, it can facilitate the community, especially the PLN, in the process of monitoring and maintaining cubicles 20 kV. 

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References

[1] PT. PLN Persero. (2014). Buku Pedoman Pemeliharaan Kubikel Tegangan Menengah. PT. PLN (Persero). Indonesia : Jakarta.
[2] Shu, S., Xu, J., Shi, S., Wei, D., Huang, Y., & Bian, Z. (2022). Corona Onset Characteristics of Contact Box in Switchgear with Condensation under High Humidity and Pollution Conditions. IEEE Transactions on Components, Packaging and Manufacturing Technology.
[3] Sriyadi, S., Pangestu, A., Wilyanti, S., Al Hakim, R. R., & Vresdian, D. J. (2021). Prototipe Alat Pendeteksi Korona Sebagai Proteksi Kubikel Keluaran 20 KV Pelanggan Tegangan Menengah. Jurnal Sosial dan Teknologi (SOSTECH), 1(5), 366-375.
[4] Hu, Q., Shu, L., Jiang, X., Sun, C., Zhang, S., & Shang, Y. (2011). Effects of air pressure and humidity on the corona onset voltage of bundle conductors. IET generation, transmission & distribution, 5(6), 621-629.
[5] Lestari, N., Suwanto, H., & Gunawan, R. (2020). SISTEM PEMANTAUAN KUBIKEL TEGANGAN MENENGAH BERBASIS INTERNET OF THINGS. Infotronik: Jurnal Teknologi Informasi dan Elektronika, 5(1), 37-42.
[6] PT. PLN Persero. (2011). Direktori Karya Inovasi XII. PT. PLN (Persero). Indonesia : Jakarta.
[7] Pasra, N., Makulau, A. and Abriyanto, M.O. (2018). Analisa Efek Korona Pada Sistem Distribusi Tenaga Listrik 20 kV Pada Gardu Beton. Jurnal Ilmiah SUTET. 8(2), pp.103-113.
[8] Amelia, R. (2021). Sistem Kendali 2 Heater Guna Mencegah Guna Mencegah Kerusakan Panel Kontrol 150 Kv di Gardu Induk. J-Innovation, 10(1), 19-23.
[9] Faturrahman, A., Christiono, C., & Koerniawan, T. (2021). Model Deteksi Dini Kegagalan Isolasi Akibat Adanya Fenomena Korona Pada Kubikasi 20 Kv Berbasis Suara (Doctoral dissertation, INSTITUT TEKNOLOGI PLN).
[10] Iderus, S., Peter, G., & Ganji, V. (2022). An innovative method to conduct temperature rise test on medium voltage switchgear assembly based on IEC standards in a power grid. The Journal of Engineering.
[11] Supartha, I. K. D. G., Sudarma, M., & Wiharta, D. M. (2018). Sistem Informasi Geografis Pemetaan Persebaran Alumni dengan Analisa Clustering. Majalah Ilmiah Teknologi Elektro, 17(3), 377-384.
[12] Imansyah, F. (2020). Pemrosesan Data Buta Aksara Berbasis WebGIS. JEPIN (Jurnal Edukasi dan Penelitian Informatika), 6(3), 353-363.
[13] Leaflet. (2022) Leaflet - an open-source JavaScript library for mobile-friendly interactive maps. [Online]. Available at :
http://leafletjs.com/
[14] Utama, Y. A. K. (2016). Perbandingan Kualitas Antar Sensor Suhu dengan Menggunakan Arduino Pro Mini. e-NARODROID: Jurnal Berkala Program Studi Sistem Komputer, 2(2), 145-150.
[15] Abi Rahman, M. G., & Broto, S. (2020). Perancangan Sistem Kontrol Suhu dan Kelembapan Udara pada Kubikel 20kv Berbasis Internet Of Things (IOT). MAESTRO, 3(2), 440-450.
[16] Gede, P. I. B., Hartati, R. S., & Divayana, Y. (2020). Rancang Bangun Aplikasi Peringatan Dan Mitigasi Gempa Bumi Berbasis Mobile Hybrid. Majalah Ilmiah Teknologi Elektro, 19(2), 145-150.
[17] PT. Trias Indra Saputra. (2014). Medium Voltage Distribution NEX 24 kV Catalogue. Indonesia. Jakarta.
[18] Date, A. A. (2004). ANSI/IEC 60529-2004.
[19] Robinson, C. K. (2018). Testing for Ingress Protection of Portable Electronic Devices. WL Gore & Associates.
[20] Rainford. (2021) IP Ratings & Standards Explained. [Online]. Available at :
https://rainfordsolutions.com/products/ingressprotection-ip-rated-enclosures/ip-enclosure-ratings-standards-explained/
Published
2022-12-13
How to Cite
RAHMADANI, Arief; WINDARKO, Novie Ayub; RAHARJA, Lucky Pradigta Setiya. Rancang Bangun Sistem Monitoring Suhu dan Kelembapan serta Kendali Dua Heater pada Kubikel 20 kV Berbasis Sistem Informasi Geografis. Majalah Ilmiah Teknologi Elektro, [S.l.], v. 21, n. 2, p. 219-228, dec. 2022. ISSN 2503-2372. Available at: <https://ojs.unud.ac.id/index.php/jte/article/view/89262>. Date accessed: 29 mar. 2024. doi: https://doi.org/10.24843/MITE.2022.v21i02.P09.