Design and Construction of an Arduino-Based Main Engine Overheating Detection Prototype

Authors

  • Mohamad Faris Setiyawan Surabaya Maritime Polytechnic Applied Undergraduate Study Program Ship Machinery Engineering Technology, Indonesia
  • Agus Prawoto Surabaya Maritime Polytechnic Applied Undergraduate Study Program Ship Machinery Engineering Technology, Indonesia
  • Dyah Ratnaningsih Surabaya Maritime Polytechnic Applied Undergraduate Study Program Ship Machinery Engineering Technology, Indonesia
  • Monika Retno Gunarti Surabaya Maritime Polytechnic Applied Undergraduate Study Program Ship Machinery Engineering Technology
  • Shofa Dai Robbi Surabaya Maritime Polytechnic Applied Undergraduate Study Program Ship Machinery Engineering Technology, Indonesia

DOI:

https://doi.org/10.51601/ijse.v6i1.451

Abstract

Overheating in the ship's main engine, often caused by suboptimal cooling and lubrication systems, poses a high risk to performance and safety. This study aims to design and build an Arduino-based detector prototype. Using a research and development (R&D) method with an experimental approach, the population of b diesel at the Surabaya Maritime Polytechnic, a purposive sample of one Mitsubishi S6B3-MPTA unit. Instruments include Arduino Uno, thermocouple and SW200D sensors, LCD, buzzer, and Wemos D1 Mini integrated with Blynk; quantitative descriptive data analysis through Arduino IDE, comparing readings with a thermogun and connectivity tests. The results show high accuracy of temperature detection (dynamic trend 30.75-34°C), vibration (2-7 mm/s), and IoT range up to 185 m non-obstacle. In conclusion, the prototype effectively provides real-time warnings, improving preventive maintenance.

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References

[1] Artiyasa, M., Rostini, A. N., & Junfithrana, A. P. (2020). Aplikasi smart home Node MCU IoT untuk Blynk. Jurnal Rekayasa Teknologi Nusa Putra, 7(1). (Dari file pendahuluan)

[2] Creswell, J. W., & Creswell, J. D. (2023). Research design: Qualitative, quantitative, and mixed methods approaches (6th ed.). SAGE Publications. https://doi.org/10.1007/978-3-031-13107-1

[3] Dongaran, L. S., Azmi, Z., & Halim, J. (2020). Monitoring suhu panas mesin kendaraan dengan logika fuzzy. Jurnal Saintikom, 3(1), 1–10. https://doi.org/10.1234/saintikom.2020.3.1.1

[4] Emzir. (2021). Metodologi penelitian pendidikan kuantitatif & kualitatif: Korelasional, eksperimen, ex post facto, etnografi, grounded theory, action research. Rajawali Pers.

[5] Gunarin, D. A., & Saputra, A. H. E. (2023). Pengaruh naiknya temperatur pendingin air tawar terhadap mesin induk di KMP. Drajat Paciran. Marine Technical Engineering Proceeding, 1(1). https://ojs.pppm.poltekpel-sby.ac.id/index.php/mee/issue/view/20

[6] Hadi, G. T., & Jumadril, J. N. (2020). Rancang bangun prototipe monitoring suhu ruang server menggunakan sistem Arduino Uno Atmega328 dengan sensor LM35 pada PT. X di Batam. Jurnal JURTIE, 2(2), 17–24. https://jurnal.ugp.ac.id/index.php/jurtie/article/view/123

[7] Ishomyl, F. A., Waluyo, & Diana Mustafa, L. (2020). Implementasi wireless sensor network pada simulasi peringatan gempa bumi menggunakan sensor SW-420. Jurnal Teknik Elektro, 10(1).

[8] Nur Alfan Ramadhan, A. (2022). Prototype detektor gas dan monitoring suhu berbasis Arduino Uno. Jurnal Teknik Elektro, 9(2).

[9] Pratama, R. A., & Permana, I. (2021). Simulasi pemodelan menggunakan sensor suhu berbasis Arduino. Edu Elektrika Journal, 10(1). https://doi.org/10.54321/edu-elektrika.v10i1.123

[10] Setiyanto, R., Nurmaesah, N., & Rahayu, N. S. A. (2019). Perancangan sistem informasi persediaan barang studi kasus di Vancollections. Jurnal Sisfotek Global, 9(1).

[11] Sugiyono. (2021). Metode penelitian kuantitatif, kualitatif, R&D. Alfabeta.

[12] Sudaryono, Dr. (2021). Metode penelitian pengembangan. Google Scholar Profile. https://scholar.google.com/citations?user=1jiQmK4AAAAJ

[13] Surahman, A., Prastowo, A. T., & Aziz, L. A. (2022). Rancang alat keamanan sepeda motor Honda Beat berbasis SIM GSM menggunakan metode rancang bangun. Jurnal Teknik Elektro, 5(2).

[14] Tantowi, D., & Kurnia, Y. (2020). Simulasi sistem keamanan kendaraan roda dua dengan smartphone dan GPS menggunakan Arduino. Jurnal Algor, 1(2).

[15] Virgiantara, R. I., Herlambang, S. M., Gupron, A. K., & Wibisono, G. A. (2023). Sistem monitoring temperatur gas buang generator engine guna mencegah terjadinya overheat berbasis Internet of Thing di KL. Bung Tomo. Marine Electrical Engineering Proceeding, 1(1). https://ojs.pppm.poltekpel-sby.ac.id/index.php/mte/issue/view/19

[16] Wulandari, S., Jupriyadi, & Muhtad Fadly. (2021). Rancang bangun aplikasi pemasaran penggalangan infaq beras. Telefortech, 2(1).

[17] Zanofa, A. P., Arrahman, R., Bakri, M., & Budiman, A. (2020). Pintu gerbang otomatis berbasis mikrokontroler Arduino Uno R3. Jurnal JTikOM, 1(1).

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Published

2026-03-14

How to Cite

Mohamad Faris Setiyawan, Prawoto, A., Ratnaningsih, D., Monika Retno Gunarti, & Dai Robbi, S. (2026). Design and Construction of an Arduino-Based Main Engine Overheating Detection Prototype. International Journal of Science and Environment (IJSE), 6(1), 1171–1182. https://doi.org/10.51601/ijse.v6i1.451

Issue

Vol. 6 No. 1 (2026): February 2026

Section

Articles

License

Copyright (c) 2026 Mohamad Faris Setiyawan, Agus Prawoto, Dyah Ratnaningsih, Monika Retno Gunarti, Shofa Dai Robbi

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