LPG Gas Leakage Safety System Prototype Using Servo Motor with MQ-2 And MQ-6 Sensors
Abstrak
LPG is a trademark of LPG (Liquefied Petroleum Gas). LPG gas is a mixture of various hydrocarbons resulting from the refining of crude oil into gas form. No doubt, LPG gas is a basic need of the community because it is mainly used for cooking and many other things. However, LPG gas is sometimes also dangerous if not used properly. Among the dangers posed by LPG is flammable gas and contains poison when inhaled in large concentrations. Therefore, this research made a tool/prototype of LPG gas leak detection. This system uses the Wemos D1 module and MQ-2 and MQ-6 sensors, as well as servo motors as its main components. In addition, Buzzer and Blynk Apk are also added as indicator and monitor features in this prototype. The working system of the prototype is that if the sensor detects gas exceeding 30 minutes or gas concentration exceeding 400 ppm, the servo motor will actively open the LPG gas regulator valve. The gas concentration value can also be monitored in real-time via the internet by opening Blynk. Until this stage, the prototype is able to work well.
Referensi
Aulia, I., Munasir, M., 2022a. Rancang bangun alat deteksi kebocoran gas lpg serta penanggulangan kebakaran menggunakan sensor mq2 dan sensor api berbasis iot. JFU 11, 306–312. https://doi.org/10.25077/jfu.11.3.306-312.2022
Andriani, L. F. (2023). Seputar parts per million (ppm) dan cara menghitungnya. Solarindustri.Com. https://solarindustri.com/blog/apa-itu-ppm/
Deni Agus Dian Pranata, 2019. Prototype sistem pendeteksi kebocoran liquified petroleum gas berbasis arduino dan call gateway. Ucaiaj 11–20. https://doi.org/10.51804/ucaiaj.v2i1.11-20
Egi Noviandra, M., Karim, S., Suswanto, 2022. Sistem deteksi kebocoran gas lpg menggunakan wemos d1 r1 dengan sensor mq-2. Antivirus 16, 190–199. https://doi.org/10.35457/antivirus.v16i2.2404
Fauzi, R.A., 2019. Pendeteksi kebocoran gas menggunakan sensor mq-2 berbasis arduino uno 3 3.
Hasan Syukur, M., 2023. Analisa teknis unjuk kerja pipa transmisi gas open access pada region iv area Jawa Timur. mz 5, 83–92. https://doi.org/10.37525/mz/2023-2/478
Inggi, R., Pangala, J., 2021. Perancangan alat pendeteksi kebocoran gas lpg menggunakan sensor mq-2 berbasis arduino. Simkom 6, 12–22. https://doi.org/10.51717/simkom.v6i1.51
Mulyono, M.A., 2019. Simulasi alat penjaring ikan otomatis dengan penggerak motor servo continuous, sensor jarak hc- sr04 dan tombol, menggunakan arduino mega 12.
Pandega, D.M., Marcos, H., 2023. Perancangan prototipe deteksi kebocoran gas menggunakan sensor mq-6 untuk rumah tangga. Jtikom 4, 1–9. https://doi.org/10.33365/jtikom.v4i1.2333
Samania, N., Nirsal, Fa’rifah, R.Y., 2020. Rancang bangun aplikasi e-voting pemilihan ketua umum himpunan mahasiswa informatika (hmti) universitas cokroaminoto palopo berbasis website. d’computare 10. https://doi.org/10.30605/dcomputare.v10i1.27
Setiadi, H., Ananda, R., Ardiansyah, M., 2019. Perancangan Alat Pendeteksi Kebocoran Tabung Gas LPG Dengan Menggunakan Sensor MQ-6 Untuk Mengatasi Bahaya Kebakaran 4.
T., A.A., F., O.J., O., Y.A., O., P.J., 2021. Analytical determination of load resistance value for MQ-series gas sensors: MQ-6 as case study. Telkomnika 19, 575. https://doi.org/10.12928/telkomnika.v19i2.17427
Valencia, V., Putra Purnama, L., Tjong, C., Liman, J., 2022. Rancang bangun alat pendeteksi kebocoran gas lpg berbasis internet of things dengan katup regulator otomatis. tech 21, 225–242. https://doi.org/10.31358/techne.v21i2.322
Zilham, A., Gunawan, R., 2024. Potensi iot alam industri 4.0. Jati 8, 1932–1940. https://doi.org/10.36040/jati.v8i2.9209
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