Effects of Cow Bone Particulate on Mechanical Properties and Microstructure of Cast Aluminum Bronze
JETI Admin
Abstract
The increasing concern for safety in residential and industrial environments necessitates the development of advanced monitoring systems to detect and respond to potential gas leaks promptly. Gas leakage incidents pose significant risks, including explosions, health hazards and environmental damage. This paper presents a gas leakage detector equipped with GSM (Global System of Mobile Telecommunication) integration for real-time monitoring and alerting. The system employs gas sensors to continuously monitor the ambient air for the presence of hazardous gases, such as Liquified Petroleum Gas (LPG), methane or propane. The core functionality of the system involves the utilization of MQ-6 gas sensor interfaced with Arduino Uno microcontroller to detect gas concentration beyond predefined thresholds. Upon detection of a gas leak, the system activates a GSM module to send immediate alerts to designated stakeholders through Short Message Service (SMS). This ensures that relevant personnel are promptly informed about the potential hazard, enabling them to take swift and appropriate action to mitigate the risk.
References
1. Patil, S., Rao, S., & Chavan, M. (2018). Analysis of gas leakage accidents and the need for real-time detection systems. International Journal of Industrial Safety, 9(1), 23-30. 2. Singh, R., & Sharma, M. (2019). Gas leakage detection using advanced communication modules. International Journal of Engineering Research and Applications, 8(4), 56-60. 3. Kumar, A., Sharma, P., & Verma, R. (2020). Semiconductor-based gas sensors for industrial and domestic safety applications. Journal of Sensor Technology, 15(2), 78-85. 4. Yadav, R., Gupta, S., & Kumar, N. (2021). Design and implementation of real-time gas leakage detection system using GSM module. Journal of IoT Applications, 12(3), 91-98. 5. Chen, Y., Zhang, H., & Liu, J. (2019). A review of gas detection technologies for industrial safety. International Journal of Industrial Safety, 9(2), 110-125. 6. Sharma, R., & Patel, P. (2017). Semiconductor gas sensors for real-time gas leakage detection. Sensors and Actuators, B: Chemical, 10(3), 46-58. 7. Singh, P., Kumar, A., & Verma, R. (2021). Semiconductor-based gas sensors for real-time air quality monitoring. Journal of Sensor Technology, 14(3), 56-69. 8. Rahman, F., & Al-Mutairi, A. (2018). Development of GSM-based smoke detection system for fire prevention. Journal of Emergency Systems, 6(1), 22-30. 9. Amin, A., Ali, A., & Shah, H. (2016). GSM based gas leakage detection and prevention system. International Journal of Advanced Research in Computer and Communication Engineering, 5(3), 123-126. 10. Mandal, R., & Dey, A. (2020). Real-time LPG gas leakage detection and alert system using GSM module. International Journal of Computer Science and Information Security, 18(4), 100-105. 11. Yadav, V., & Kumar, S. (2021). Design of an intelligent gas leakage detection system using Arduino Uno and GSM. Journal of IoT and Sensor Networks, 7(2), 65-72. 12. Electrovigyan. (2024). Interface MQ6 with Arduino. https://www.electrovigyan.com/arduino/interface-mq6-gas-with-arduino/ [Accessed: August, 2024]. 13. Electrovigyan. (2024). Interface a SIM800L GSM GPRS Module with Arduino. https://www.electrovigyan.com/arduino/sim800l-module/ [Accessed: August, 2024].