Authors : Faisal Moin Patel

Volume/Issue : RISEM–2025

Google Scholar : https://tinyurl.com/y5m27wh2

Scribd : https://tinyurl.com/26v3r8my

DOI : https://doi.org/10.38124/ijisrt/25jun158

Abstract : This paper explores fire protection mechanisms specifically designed for mechanical systems, emphasizing the integration of fire prevention, detection, and suppression methods. It highlights the importance of implementing fire- resistant materi- als, insulation, and active fire detection systems to safeguard components such as motors, gears, and mechanical structures from fire hazards. Moreover, the paper examines the role of thermal insulation and ventilation as passive measures, as well as fire detection systems like smoke detectors and thermal sensors. With case studies in industrial applications, the paper presents an overview of regulations governing fire safety in mechanical systems and analyzes the impact of fire protection on operational safety, financial savings, and the reduction of fire-related downtime. The findings demonstrate how effective fire protection enhances safety and reduces the risk of catastrophic failure in mechanical systems.

Keywords : Dynamic Thermography; COMSOL; NDT.