RT - Journal Article T1 - Fire risk assessment by Engineering Approach and Applied strategies for fire protection JF - IOH YR - 2015 JO - IOH VO - 12 IS - 5 UR - http://ioh.iums.ac.ir/article-1-1394-en.html SP - 75 EP - 82 K1 - Key words: Risk assessment K1 - Fire K1 - FRAME K1 - Power plant K1 - control room AB - Background and aims: From the 70s onwards, safety engineering made significant progress in developing techniques and regulations relating to the fire. The first, this methods was considered after happening accidents to prevent similar accidents. But with the advancement of technology, the prediction and prevention of fire in complex industries such as power plant finds Important. This study is done to determine the risk of fire in the control room of a power plant and proposed effective strategies to fire prevention. Methods: In this study, based on fire risk assessment methods for engineers, computational package was prepared by EXCEL software. Next to the building and contents, residents and activities in the plant control room, risk assessment calculations were carried out separately. At the end based of FRAME pattern, proposed appropriate control measures. Results: The results showed that the risk of fire for building and contents is 1.02, residents 20.6 and activity is 0.5. According to the acceptable level of risk in the method, only the risk of fire in activities within the acceptable range. The results showed that in case of fire, the expected damage to buildings is 10-20 percent. The fire risk for residents is required to take preventive measures to reduce the level of risk. Conclusion: The results showed that the FRAME method, in addition to risk assessment can determine the strengths and weaknesses of existing systems and will provide appropriate control measures to prevent fires in buildings built. LA eng UL http://ioh.iums.ac.ir/article-1-1394-en.html M3 ER -