Rancang Bangun Water Treatment di Atas Kapal dengan Reverse System Menggunakan Atmega 2560

Bagus Indra Pramana Widya Putra; Edi Kurniawan; Frenki Imanto

doi:10.61132/globe.v2i4.569

Authors

Bagus Indra Pramana Widya Putra Politeknik Pelayaran Surabaya
Edi Kurniawan Politeknik Pelayaran Surabaya
Frenki Imanto Politeknik Pelayaran Surabaya

DOI:

https://doi.org/10.61132/globe.v2i4.569

Keywords:

Water Treatment, ATMEGA 2560, Turbidity Sensor SEN0189, TDS Sensor SEN0244, PH Sensor SEN0161

Abstract

Ships as an important means of transportation require the availability of good quality fresh water to meet the daily needs of the crew. Because the quality of fresh water that does not meet the standards can interfere with the activities of the crew. This research aims to build a water treatment system on board controlled by ATMEGA 2560 microcontroller. The system is equipped with turbidity sensor SEN0189, TDS sensor SEN0244, and PH sensor SEN0161 to monitor the freshwater quality. The process of working this tool by treating fresh water which then the parameters are detected by the PH sensor, TDS sensor, and turbidity sensor which then the detection results are displayed on the LCD monitor, and the buzzer and LED turn on when the condition of the fresh water parameters does not meet the standards. The methodology and design of this system will be carried out with experimental research methods where in this method at least one variable is manipulated to study the cause-and-effect relationship. The results of testing water treatment using ATMEGA 2560 show that the system can work optimally in treating fresh water. And the accuracy of the PH sensor, TDS sensor, and turbidity sensor is quite accurate with the difference in error with the comparison measuring instrument less than 5%.

References

Afrizal, M. Y. M. S. (2022). Prototipe sistem pengendalian suhu, pemantauan pH dan ketinggian air kolam ikan lele berbasis Node MCU ESP8266. Eprints Undip. https://eprints2.undip.ac.id/id/eprint/12867

Amin, A. (2018). Monitoring water level control berbasis Arduino Uno menggunakan LCD LM016L. Jurnal EEICT, 1. https://ojs.uniska-bjm.ac.id/index.php/eeict

Azis, N., Pribadi, G., & Savitrie Nurcahya, M. (2020). Analisa dan perancangan aplikasi pembelajaran bahasa Inggris dasar berbasis Android.

Badri, H., Tharo, Z., Aryza, S., Wibowo, P., & Anisah, S. (2022). Rancangan alat pengaman instalasi listrik menggunakan sistem proteksi relay terhadap beban lebih dan hubung singkat berbasis mikrokontroler. Seminar Nasional Informatika (SENATIKA) – 3, 227.

Budihartono, E., & Kukuh Supriyono, D. (2023). Monitoring kualitas air pada budidaya hidroganik berbasis Arduino. Penerbit Nem.

Cekdin, C., Nawawi, Z., & Faizal, M. (2023). Generator termoelektrik sebagai sumber energi alternatif. Andi Publisher.

Hapsari, G., Herlambang, S. M., & Arleiny, A. (2024). Prototype monitoring dan kontrol kualitas nilai pH air pada kapal. Jurnal Penelitian Rumpun Ilmu Teknik (JUPRIT), 3, 13.

Irawan, Y., Febriani, A., Wahyuni, R., & Devis, Y. (2021). Water quality measurement and filtering tools using Arduino Uno, pH sensor and TDS meter sensor. Journal of Robotics and Control (JRC), 2(5). https://doi.org/10.18196/jrc.25107

Maulana, G., Pancono, Suharyadi, & Mia, A. (2018). Desain dan implementasi sistem pengendalian otomatis untuk mengatur debit air pada prototipe bendung sebagai pencegahan banjir. Jurnal Teknik Informatika dan Sistem Informasi, 4, 407–421.

Novrista, A., & Yendri, D. (2023). Otomatisasi sistem penyiraman tanaman krisan indoor berbasis mikrokontroler. Penerbit Adab.

Pratama, Z. A. (2021). Penerapan Bluetooth untuk gerbang otomatis. Portal Data. http://portaldata.org/index.php/portaldata/article/view/23#

Ristanta, A., Jabbar Lubis, A., Liza, R., & Siregar, D. (2021). Alat pemberi pakan udang dan pemantau kekeruhan air yang dilengkapi dengan filter air dan sistem penggantian air menggunakan WeMos D1 R1 berbasis Internet of Things, 1, 118–124.

Samsugi, S., & Silaban, D. E. (2018). Purwarupa controlling box pembersih wortel dengan mikrokontroler, 1–7.

Subni Ananda Putra, G., Ariza, N., & Basrah Pulungan, A. (2020). Power supply variabel berbasis Arduino. JTEIN: Jurnal Teknik Elektro Indonesia, 2, 139–143.

Veber, E. V., Yulistio, N., & Fitriyah, Q. (2021). Water treatment, 2(1). https://doi.org/10.30871/aseect.v2i1.2933