Design and Manufacture of LPG Gas Leak Detection Based on Arduino Uno Using MQ-2 Sensor

Satriya Wibawa I. Made *

Physics Study Program, Faculty of Mathematics and Natural Sciences, Universitas Udayana, Indonesia.

Anak Agung Ngurah Gunawan

Physics Study Program, Faculty of Mathematics and Natural Sciences, Universitas Udayana, Indonesia.

Putra I. Ketut

Physics Study Program, Faculty of Mathematics and Natural Sciences, Universitas Udayana, Indonesia.

Sukarasa I. Ketut

Physics Study Program, Faculty of Mathematics and Natural Sciences, Universitas Udayana, Indonesia.

*Author to whom correspondence should be addressed.


Abstract

Aims: To design and manufacture LPG gas leak detection tool that is more efficient, relatively cheaper and can be carried because it has a smaller shape and size compared to tools on the market

Study Design: Design of LPG gas leak detection based on Arduino Uno using MQ-2 sensor.

Place and Duration of Study: Physics Study Program, Faculty of Mathematics and Natural Sciences, Universitas Udayana, from June 2023 to October 2023.

Methodology: The trial and error method is used to calibrate the designed tool with standard tools. Calibration is done by comparing the distances value of the LPG gas leak detection using MQ-2 sensor and the calibration standard tool. The relationship between the measurement values of the design tool and the standard tool is determined using linear regression method to obtain a correction equation.

Results: LPG gas leak detection based on Arduino Uno using MQ-2 sensor have been produced. The measurement accuracy obtained 97.97%. The accuracy value indicates that the resulting tool has a good level of accuracy to the standard tool.

Conclusion: In this research, has been produced LPG gas leak detection more efficient, relatively cheaper and can be carried because it has a smaller shape and size, low-cost with high accuracy.

Keywords: Arduino uno, MQ-2 sensors, LPG, gas leak


How to Cite

Made , S. W. I., Gunawan , A. A. N., Ketut , P. I., & Ketut , S. I. (2024). Design and Manufacture of LPG Gas Leak Detection Based on Arduino Uno Using MQ-2 Sensor. Asian Journal of Research and Reviews in Physics, 8(1), 27–32. https://doi.org/10.9734/ajr2p/2024/v8i1155

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References

Hakim, Yonatan. LPG gas leak detection using an arduino detector with the fuzzy logic algorithm. RESTI Journal (Information Systems and Technology Engineering). 2017;1(2):114-121. DOI: 10.29207/resti.v.1i2.35

Desmara Aribowo D. Design of LPG gas leak detection tool using ATmega 16 Microcontroller. Journal VOLT. 2016;1(1): 73-80.

Sarmidi Fauzi RA. gas leak detection using MQ-2 sensor based on Arduino uno. Journal of Management and Information Engineering. 2019;3(1):51-60.

Adsul Sahil MRG, Kumar SA. Development of leakage detection system. International Conference on Automatic Control and Dynamic Optimization Techniques (ICACDOT). 2016; 673–77.

Rimbawati Heri Setiadi, Ardiansyah M. Design of LPG gas cylinder leak detection tool using MQ-6 sensor to overcome fire hazards. Journal of Electrical Technology. 2019;4(2).

Suryantoro H, Budiyanto A. Labview and Arduino based water level monitoring system prototype as a supporting means for instrumentation control system. Journal of Laboratory. 2019;1(3):22-27.

Tamizharasan RSKSV, Ravichandran T, Sowndariya M. Gas level detection and automatic booking using IOT, In 5Th international Conference on Advanced Computing & Communication Systems (ICACCS). 2019;922–25.

Sari K, Suhery C, Arman Y. Implementation of a fish feeding system using a buzzer and microcontroller based interface application. Untan Computer Systems Coding Journal. 2015;03:112.

Carnedi E. Systematic literature review: Control safety system for gas leak detection. Polgan Minfo Journal. 2023; 12(1). DOI:https://doi.ogr/10.33395/jmb.v12i1.12699

Evalina N, Azis AH. The use of MQ6 and microcontroller of ATMega 2360 as a leaks detection device of Liquid Petrolum Gas (LPG). Budapest International Research in Exact Sciences (BirEx) Journal. 2020;2(3):389-393. e-ISSN: 2655-7827 (Online), p-ISSN: 2655-7835 (Print). Available:www.bircu-journal.com/index.php/birex