Sistem Pemantauan Gas Benzena dengan Aplikasi Blynk

Authors

  • Fitria Hidayanti Program Studi Teknik Fisika, Universitas Nasional
  • Kiki Rezki Lestari Program Studi Teknik Fisika, Universitas Nasional
  • Donni Indra Kusumo Program Studi Teknik Fisika, Universitas Nasional

DOI:

https://doi.org/10.30599/jipfri.v5i2.1117

Keywords:

Monitoring system, benzene gas, blynk, NodeMCU, IoT

Abstract

Benzene gas is a material widely used in the laboratory as a solvent. Benzene gas can be harmful to people. Therefore, this study aims to measure and monitor benzene gas levels with the Internet of Things (IoT) platform as a monitoring and notification system on android smartphone devices. The sensor used is MS 1100 to detect benzene gas and transmit input signals. The NodeMCU microcontroller processes these signals. This wifi module in NodeMCU sends the sensor’s value to the Blynk IoT platform to display in graph form. This value is processed under the program and it meets the setpoint then the system provides notifications to users through the Blynk application on android smartphone devices as well as activating buzzer and exhaust fans in the laboratory room. The result showed that monitoring of benzene gas in the laboratory as 0.17 ppm.

Downloads

Download data is not yet available.

References

Djatmiko, W. (2016, October). Prototipe Sistem Pengukur Kualitas Tegangan Jala-Jala Listrik Pln. In PROSIDING SEMINAR NASIONAL FISIKA (E-JOURNAL) (Vol. 5, pp. SNF2016-CIP).

Fezari, M., & Al Dahoud, A. (2018). Integrated Development Environment “IDE” For Arduino. WSN applications, 1-12.

Hrica, J., Chatterjee, S., & TamizhMani, G. (2011, June). BAPV array: Thermal modeling and cooling effect of exhaust fan. In 2011 37th IEEE Photovoltaic Specialists Conference (pp. 003144-003149). IEEE.

Indonesia, S. N. (2005). Nilai Ambang Batas (NAB) zat kimia di udara tempat kerja. Jakarta: Badan Standarisasi Nasional.

Lawate, S. V., & Ali, M. S. (2014). Electronic eye for security system. International Journal of Electronic and Electrical Engineering, 7(9).

Sahtyawan, R., & Wicaksono, A. I. (2020). Application for Control of Distance Lights Using Microcontroller Nodemcu Esp 8266 Based on Internet of Things (IoT). vol, 3839, 43-50.

Saputra, I. (2019). Sistem Monitoring Brankas Berbasis Web Menggunakan Nodemcu Esp8266 V. 3 (Doctoral dissertation, STMIK AKAKOM YOGYAKARTA).

Suryana, T. (2021). Implementasi Komunikasi Web Server Nodemcu Esp8266 Dan Web Server Apache Mysql Untuk Otomatisasi Dan Kontrol Peralatan Elektronik Jarak Jauh Via Internet.

Waworundeng, J. M., & Lengkong, O. (2018). Sistem Monitoring dan Notifikasi Kualitas Udara dalam Ruangan dengan Platform IoT. Cogito Smart Journal, 4(1), 94-103.

Wicaksono, M. F. (2017). Implementasi modul wifi NodeMCU Esp8266 untuk smart home. Komputika: Jurnal Sistem Komputer, 6(1).

YE, L. N., & CHEN, L. (2011). Hardware Design of Toxic and Harmful Gas Monitoring System Based on ZigBee Wireless Sensor Network. Journal of Jilin Teachers Institute of Engineering and Technology, 02.

Xu-hua, L. I. (2014). Formaldehyde Gas Monitoring Design Based on Wi-Fi Network. Journal of Jiaying University, 11.

Downloads

Published

2021-11-30

How to Cite

Hidayanti, F., Lestari, K. R., & Kusumo, D. I. (2021). Sistem Pemantauan Gas Benzena dengan Aplikasi Blynk. JIPFRI (Jurnal Inovasi Pendidikan Fisika Dan Riset Ilmiah), 5(2), 72–79. https://doi.org/10.30599/jipfri.v5i2.1117
Abstract Views: 816 | File Views: 1089