Experimental Results for Designing and Building a New Intelligent System for Fire Alarm and Extinguishing in Automotives

International Journal of Mechanical Engineering

© 2021 by SSRG - IJME Journal

Volume 8 Issue 7

Year of Publication : 2021

Authors : Esmaeil Mirmahdi, Mostafa Esmaeili, Daniyal Rahimi, Seyed Ali Mousavi

10.14445/23488360/IJME-V8I7P101

How to Cite?

Esmaeil Mirmahdi, Mostafa Esmaeili, Daniyal Rahimi, Seyed Ali Mousavi, "Experimental Results for Designing and Building a New Intelligent System for Fire Alarm and Extinguishing in Automotives," SSRG International Journal of Mechanical Engineering, vol. 8,  no. 7, pp. 1-9, 2021. Crossref, https://doi.org/10.14445/23488360/IJME-V8I7P101

Abstract:

Unwanted automotive fires cause annual human, financial and environmental damage. Automotive fires can be caused by accidents, technical problems of the automotive system, design defects, overheating of the engine due to improper cooling, fuel leaks, automotive electronic system connections, non-observance of safety issues, and other factors. There are solutions to prevent this from happening, including proper and safe design, automotive insulation, reducing the ignition of gases and fuels in the engine compartment and fuel tank, using new fire extinguishing systems, and observing safety measures. The purpose of this article is to provide an automatic and intelligent warning and extinguishing system to reduce the damage caused by this accident. In this way, in the first place, after sensing the fire components by the sensors, the driver and occupants inside the cabin are informed of the fire hazard to get out of the automotive. Another suggestion in this article is to set up a communication system with the driver's mobile phone and notify him of the fire. In the next step, the system works to extinguish and extinguish the fire and inhibits it by spraying fire-retardant materials such as water.

Keywords:

Fire Extinguishing, Fire Alarm, Smoke and Fire and Gas Detection Sensors, Safety, Mobile Information

References:

[1] Lees, F., Lees' Loss prevention in the process industries: Hazard identification, assessment, and control. Butterworth-Heinemann, (2012).
[2] Sowah, R., Ampadu, K. O., Ofoli, A., Koumadi, K., Mills, G. A., & Nortey, J., Design and implementation of a fire detection and control system for automobiles using fuzzy logic. In IEEE industry applications society annual meeting,IEEE, (2016) 1-8.
[3] Liu, Q. X., Design of the multifunctional sensor system for the intelligent car. Sensors & Transducers, 161(12) (2013) 518.
[4] Chen, S. J., Hovde, D. C., Peterson, K. A., & Marshall, A. W. Fire detection using smoke and gas sensors. Fire Safety Journal, 42(8) (2007) 507-515.
[5] Esmaeil Mirmahdi, Omid Ghorbani Shirazi., Installation of Suitable Sensors for Object Detection and Height Control on Combine Harvester, SSRG International Journal of Mechanical Engineering 8(5) (2021) 12-19.
[6] Ibrahim, D., Microcontroller-based applied digital control. John Wiley & Sons, (2006).
[7] Shrigondekar, H., Chowdhury, A., & Prabhu, S. V., Characterization of a simplex water mist nozzle and its performance in extinguishing liquid pool fire. Experimental Thermal and Fluid Science, 93 (2018) 441-455.
[8] Mathavan, J. J., Faslan, A. W., Basith, N. U. A., & Wanigasinghe, W. V. S. D., Hardware Implementation of Fire Detection, Control, and Automatic Door Unlocking System for Automobiles. In 4th International Conference on Trends in Electronics and Informatics (ICOEI)(48184) (2020) 125-129. IEEE.