Monitoring LPG Cylinder Weight and Detecting Leakages System
Keywords:
Arduino Uno, GSM, Load Cell, LCD, Monitoring Gas leaksAbstract
This research presents a comprehensive methodology for LPG gas detection and leakage monitoring, addressing critical safety concerns associated with the use of liquefied petroleum gas (LPG) in various environments. The proposed system incorporates an array of sensors, including gas and smoke detectors, load cells, LM35 sensors, and Dallas sensors, strategically placed at key locations prone to gas leaks. These sensors work in tandem to ensure early detection of gas leaks, smoke, abnormal temperature fluctuations, and potential fire hazards. Moreover, the system integrates automated controls such as a servo motor for gas supply shut-off, audible alerts through a voice module, LCD display for real-time information, and GSM technology for instant communication with users and authorities. This comprehensive approach not only enhances gas safety but also empowers users with the tools and information needed to respond promptly to gas-related emergencies. By combining advanced sensor technology with automated response mechanisms and effective communication channels, this LPG gas detection and monitoring system offers a versatile and reliable solution to mitigate gas-related risks. It caters to a wide range of applications, from residential homes to industrial settings, where the early detection of gas leaks and swift response are critical for preventing accidents and ensuring the safety of occupants.
References
- Attia and Ali (2016) authored a paper titled "Electronic Design of System for Monitoring, Alerting, and Safeguarding Against LPG Leaks Using Discrete Components." This article was published in the International Journal(Applied Engineering Research), volume 11, issue 19, and can be found on pages 9721 to 9726.
- In the year 2015, A. Raj, A. Viswanathan, and T. Athul contributed to a publication titled "LPG Gas Monitoring System" in the International Journal of Innovative Technology and Research (IJITR). This work can be located in volume 3, issue 2, on pages 1957 to 1960 of the journal.
- In April 2014, P. M. Vidya, S. Abinaya, G. G. Rajeswari, and N. Guna contributed to a paper titled "Automaically Detects of LPG Leak and Hazard Prevent for Home Security." This paper was presented at the 5th National Conference on VLSI, Embedded Systems, Communication, and Networks, specifically in Volume 7 of the proceedings.
- In a publication dated in the International Journal of Futuristic Science Engineering and Technology, authors M. R. H. Davda and M. N. Mohammed explored the topic of "Text Detection, Removal, and Region Filling Through Image Inpainting" within Volume 1, Issue 2.
- M. Setiyo, S. Soeparman, N. Hamidi, and S. Wahyudi authored a research paper in 2017 titled "Analysis of LPG Composition in the Fuel Line During the Discharge Process." This study was published in the International Journal of Technology, volume 8, issue 1, spanning pages 112 to 121.
- In July 2020, S. K. Shinde, P. R. Khore, A. T. Hirave, P. V. R. Kaushik, and P. S. N. Divekar authored a paper on "Automatic LPG Cylinder Booking and Leak Detection Utilizing Arduino UNO." This research work can be found on pages 4527 to 4534.
Downloads
Published
Issue
Section
License
Copyright (c) IJSRST
This work is licensed under a Creative Commons Attribution 4.0 International License.