The Pengaruh Karbon Monoksida Terhadap Lebar Bukaan Kaca Otomatis Replika Kabin Power window

Yuniarto Agus Winoko; Eka  Febrianto

doi:10.26905/jasiek.v8i1.17165

Authors

Yuniarto Agus Winoko
Eka Febrianto

DOI:

https://doi.org/10.26905/jasiek.v8i1.17165

Keywords:

Arduino Nano, Emissions, Power window, Ventilation, Trainer

Abstract

Cases of carbon monoxide (CO) poisoning inside vehicles continue to occur and often result in fatalities. This study aimed to investigate the relationship between CO gas concentration and the ventilation conditions of a cabin replica to determine the most effective power window opening width for minimizing the risk of poisoning, as well as to implement the system in a power window trainer. The research method involved designing and developing a power window trainer based on an Arduino Nano microcontroller. Experimental tests were conducted to quantitatively analyze the effects of variations in CO gas concentration and the number of ventilation openings, each with a diameter of 32 mm, on the automatic window opening width. The collected data were then analyzed using the Taguchi method. The results showed that higher CO gas concentrations resulted in wider window openings, with the maximum opening width reaching 5.8 cm at a CO concentration of 25 ppm. The number of ventilation openings also affected system performance, with the best condition achieved using one ventilation opening when the CO concentration reached 25 ppm. In addition, the fastest window-closing response was obtained when two ventilation openings were used at a CO concentration of 25 ppm

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References

[1] E. Susanto, “Polisi Pastikan Pasutri Tewas dalam Mobil di Magelang Keracunan Gas CO,” Detik Jateng. Accessed: Jan. 10, 2026. [Online]. Available: https://www.detik.com/jateng/berita/d-7889871/polisi-pastikan-pasutri-tewas-dalam-mobil-di-magelang-keracunan-gas-co

[2] N. Elolemy, S. Ahmed, Y. Hafez, and H. Elbana, “Effect of Nursing-directed Protocol on the Occurance of Hypoglycemic Episodes among Patients at Medical Intensive Care Unit,” Tanta Sci. Nurs. J., vol. 31, no. 4, pp. 65–86, 2023, doi: 10.21608/tsnj.2023.328655.

[3] C. Patniawati, Aa. A. F. Rizal, Z. Astuti, and N. W. W. Asthiningsih, “Efektifitas pendidikan kesehatan pertolongan pertama kecelakaan terhadap pengetahuan tentang keracunan makanan dan gas karbon monoksida (co) siswa kelas xi,” J. Pengabdi. Masy. Nusant., vol. 2, no. 2, pp. 78–83, 2023.

[4] V. V Rambing, J. M. L. Umboh, and F. Warouw, “Literature Review: Gambaran Risiko Kesehatan pada Masyarakat akibat Paparan Gas Karbon Monoksida (CO),” Kesmas, vol. 11, no. 4, pp. 95–101, 2022.

[5] Zaenab and N. Azizah, “Risiko Pajanan Karbon Monoksida (CO) dan Nitrogen Dioksida (NO₂) Terhadap Kesehatan Ibu dan Anak: Literature Review,” Care J., vol. 4, no. 2, pp. 6–13, 2025, [Online]. Available: https://jurnalstikestulungagung.ac.id/index.php/care/article/view/200

[6] A. Lutfi and B. Harjanto, “Analisis Pengkondisian Udara Ac Terhadap Beban Pendingin Pada Mobil Daihatsu Ferosa,” J. Mek., vol. 11, no. 1, pp. 56–73, 2023.

[7] R. F. Syofian, Suzuki; Setiawan, Aji; Siregar, “Deteksi dan Monitoring Gas Beracun Carbon Monoksida ( CO ) Pada Kabin Kendaraan Tua ( Odometer > 300k km ) dan Hubungannya Terhadap Kepadatan Kendaraan Dengan Metode Fuzzy Suzuki Syofian , Aji Setiawan , Rolan Siregar , Fathan Abstrak,” Unsada, vol. VIII, no. 1, 2021.

[8] N. Anwar, R. R. Saputra, and A. Ichwani, “Internet Of Things Monitoring Sistem Deteksi Gas Carbon Monoksida ( CO ) Pada Kabin Mobil,” Format J. Ilm. Tek. Inform., vol. 11, no. x, pp. 45–54, 2022.

[9] R. S. Lestari and W. D. Kurniawan, “Pengaruh Media Pembelajaran Trainer Kelistrikan Body Mobil Terhadap Hasil Belajar Siswa di SMKN 2 Surabaya,” J. Vocat. Tech. Educ., vol. 5, pp. 93–101, 2023.

[10] W. Purwanto, F. Afif, R. Lapisa, D. Yuvenda, M. Y. Setiawan, and H. D. Saputra, “Optimazation Of Use Types Of Plug , Oil , And Ethanol Fuel Mixture Of Gasoline To Increase Temperature And Mileage Of 4 Stroke Motorcycle With Taguchi Method Optimasi Penggunaan Jenis Busi , Oli , Dan Campuran Ethanol Bensin Terhadap Peningkatan Suhu Dan,” AEEJ J. Automot. Eng. Vocat. Educ., vol. 3, no. 2, pp. 79–92, 2022.

[11] A. Terminanto, R. Reswati, and V. D. Putra, “Studi Kelayakan dan Implementasi Perangkat Lunak Computer Aided Design Opensource Freecad Sebagai Pengganti Autocad dan Solid Works dalam Kuliah Di Teknik Industri Universitas Pancasila,” Innov. J. Soc. Sci. Res., vol. 3, pp. 7989–7999, 2023.

[12] T. E. S, I. T. N. Malang, and M. Indonesia, “Perancangan Pwm Voltage Controller Sebagai Pengatur Kecepatan Motor Dc Shunt Mobil Listrik,” vol. 08, no. 2, pp. 23–33, 2024.

[13] A. Pratama, Widho Ralenza; Yulianti, Bekti; Sugiharto, “Prototipe Smart Parking Modular Berbasis Internet Of Things,” J. Teknol. Ind., vol. 11, no. 1, pp. 52–60, 2022.

[14] D. T. Laksono et al., “Implementasi Kendali Berurutan Berbasis Limit Switch Pada Modul Praktikum Plc Omron Cp1e Untuk Pembelajaran Otomasi Industri,” J. Inform. dan Tek. Elektro Terap., vol. 14, no. 1, pp. 270–277, 2026.

[15] D. Din, “Rancang Bangun Sistem Pemantauan Kualitas Udara Berbasis Internet Of Things (IoT) Menggunakan Thingspeak Dan Website,” Dr. Diss. Univ. Hasanudin, 2023.

[16] F. Marwita, “Sistem Monitoring Sirkulasi Udara Pada Ruang Dapur Hotel,” SINUSOIDA, vol. XXIII, no. 1, pp. 32–39, 2021