Dry Turning Process Prototype of Air Quality Monitoring Device for Motor Vehicle Testing Unit
DOI:
https://doi.org/10.56862/irajtma.v4i2.274Keywords:
Air quality, MQ-7, Microcontroller, Motor vehicle testing.Abstract
This study aims to design and evaluate the performance of a prototype air quality monitoring device integrated with an exhaust fan in a vehicle testing room. The experimental method was employed to examine the relationship between variables. The increasing number of motor vehicles has an impact on air quality, particularly in emission testing areas. The device utilizes an MQ-7 sensor for gas detection and a DHT22 sensor for temperature and humidity, with data displayed in real time on an LCD screen. When the gas concentration exceeds nine ppm, the system activates an audible alarm and automatically turns on the exhaust fan to maintain air circulation. The exhaust fan expels hot air from the room while bringing in cooler outside air. Test results indicate that the device operates stably and provides accurate data, making it suitable as an air quality monitoring system in motor vehicle testing facilities.
References
Faroqi, Adam, Dery Kurnia Halim, Mada Sanjaya WS, dan Eko Prabowo Hadisantoso. 2017. “Perancangan Alat Pendeteksi Kadar Polusi Udara Mengunakan Sensor Gas MQ-7 dengan Teknologi Wireless HC-05.” Jurnal Istek 10 (2).
Ismiyati, Ismiyati, Devi Marlita, dan Deslida Saidah. 2014. “Pencemaran Udara Akibat Emisi Gas Buang Kendaraan Bermotor.” Jurnal Manajemen Transportasi & Logistik (JMTransLog) 1 (3): 241–48.
Peraturan Pemerintah. 2012. “55AD Tahun 2012 tentang Kendaraan.” Jakarta.
Pamungkas, Rionaldo Elen, Sulistyani Sulistyani, dan Mursid Rahardjo. 2017. “Analisis Risiko Kesehatan Lingkungan (ARKL) Akibat Paparan Karbon Monoksida (CO) Melalui Inhalasi pada Pedagang di Sepanjang Jalan Depan Pasar Projo Ambarawa Kabupaten Semarang.” Jurnal Kesehatan Masyarakat 5 (5): 824–31.
Setyawan, Reinaldi, Yohanes Dewanto, dan Dede Zariatin. 2018. “Prototipe Alat Deteksi Kandungan CO dan HC dalam Kabin Kendaraan Menggunakan Mikrokontroler Arduino.” Teknobiz: Jurnal Ilmiah Program Studi Magister Teknik Mesin 8 (2): 55–60.
Shidqi, Hasby Ash. 2022. “Pembuatan Exhaust Fan Otomatis untuk Mengurangi Kadar Asap Kendaraan di dalam Ruangan Uji Kir Kendaraan Menggunakan Metode Quality Function Deployment (QFD) dan Model Kano (Studi Kasus Tempat Uji Kendaraan Bermotor Kabupaten Pemalang).” Universitas Islam Sultan Agung.
Wardhana, W. A. 2004. Dampak Pencemaran Lingkungan. Yogyakarta: Andi Press.
Winarno, Joko. 2014. “Studi Emisi Gas Buang Kendaraan Bermesin Bensin pada Berbagai Merk Kendaraan dan Tahun Pembuatan.” Jurnal Teknik 4 (1).
Yulianto, Bayu Dafa Mujo, Aulia Desy Aulia Nur Utomo, and Aditya Wijayanto. 2022. “Perancangan Alat Monitoring Suhu dan Polusi Karbon Monoksida (CO) di Udara Berbasis Internet of Things (IoT).” LEDGER: Journal Informatic and Information Technology 1 (4): 194–205.
Yusuf, Ariza. 2020. Rancangan Alat Pemantau Kualitas Udara dengan Sensor PMS5003 pada Gedung Unit Pengelola Pengujian Kendaraan Bermotor Pulogadung. Diss., Universitas Mercu Buana Jakarta.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2025 IRA Jurnal Teknik Mesin dan Aplikasinya (IRAJTMA)
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
