Fire Egress System Optimization of High-Rise Teaching Building Based on Simulation and Machine Learning

Zhou, Meng; Zhou, Bailing; Zhang, Zhuo; Zhou, Z. Y.; Liu, Jing; Li, Boyu; Wang, Dong; Wu, Tao

doi:10.3390/fire6050190

Cited by 11 publications

(4 citation statements)

References 62 publications

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“…The life safety criteria in performance-based design are defined by parameters such as temperature, visibility, oxygen (O 2 ), carbon monoxide (CO), and carbon dioxide (CO 2 ), measured at a height of 1.8 m above the floor, which corresponds to the respiratory threshold for evacuees [25]. Temperature affects residents by causing thermal effects, and high temperatures of 60 • C or higher increase the risk of respiratory issues and skin burns [26,27]. Visibility is a factor that can obstruct evacuation due to the blocking of occupants' view.…”

Section: Safety Criteriamentioning

confidence: 99%

Evaluation of the Fire Impact of Cellulose-Based Indoor Building Finishing Materials According to Changes in Room Size Aspect Ratio

Kim,

Rie

2024

Applied Sciences

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In modern society, the size of buildings tends to expand due to technological advances. However, while prioritizing performance design and specific building materials, fire research has fallen short of creating a comprehensive fire characteristic database for building materials. This study presents a plan for building a big data resource to evaluate the fire performance of cellulose-based flame retardant building finishing material in buildings of varying sizes. The three types of building finishing materials applied in this study are polyurethane foam, MDF, and cellulose-based building finishing materials. The variables were determined based on the floor area, and the change in floor area was calculated using the aspect ratio, a dimensionless number. Data analysis utilized the Fire Dynamics Simulator (FDS) to determine the time required to meet life safety standards for temperature, visibility, and Fractional Effective Dose (FED). The results confirm a correlation between the safe evacuation time (ASET) and increasing floor area. Additionally, the study demonstrates that cellulose-based flame-retardant building finishing material effectively maintains safe evacuation times even with increasing floor areas, as evidenced by increases of 41.0 s, 13.2 s, and 97.5 s in temperature, visibility, and FED, respectively.

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Section: Safety Criteriamentioning

confidence: 99%

Evaluation of the Fire Impact of Cellulose-Based Indoor Building Finishing Materials According to Changes in Room Size Aspect Ratio

Kim,

Rie

2024

Applied Sciences

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“…According to [17], the authors proposed a new way for a smart building fire evacuation and control system based on the IoT to direct individuals along an evacuation route during fire incidents efficiently. In [18], the co-effectiveness of stairwells, walkways, and room doors in reducing total evacuation time was investigated using simulation and machine learning. The authors selected a typical high-rise teaching building as an example and integrated two simulation software, Pyrosim and Pathfinder, to compare the available safe evacuation time (ASET) and required safe evacuation time (RSET).…”

Section: Introductionmentioning

confidence: 99%

“…The impact of fires on the evacuation process [17][18][19][20], and the characteristics and behavior of humans during evacuation [21], has been tested. In [22], the authors focused on evacuation plans for buildings with multiple escape routes based on a network model of indoor pathways.…”

Section: Introductionmentioning

confidence: 99%

Combining MAS-GiG Model and Related Problems to Optimization in Emergency Evacuation

Huyen

Occello

2023

Computers

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Emergency evacuation is of paramount importance in protecting human lives and property while enhancing the effectiveness and preparedness of organizations and management agencies in responding to emergencies. In this paper, we propose a method for evacuating passengers to safe places with the shortest possible evacuation time. The proposed method is based on a multi-level multi-agent MAS-GiG model combined with three problems. First, constructing a path map to select the shortest path; second, dividing the space of the experimental environment into smaller areas for efficient management, monitoring, and guiding evacuation; the third, adjusting the speed to handle collision issues and maintain distance between two or more groups of evacuees while moving. We extend our previous study by establishing groups based on the location of passengers and using a MAS-GiG model to guide evacuation. We compare the proposed method with our previous method to provide specific evaluations for the research and research in the future. We tested two methods in the departure hall, first floor, Danang International Airport, Vietnam.

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“…For instance, Longhui Liao et al utilized Pyrosim and Pathfinder to simulate underground evacuation and smoke flow in the Guangzhou International Financial City [11]. Similarly, Muchen Zhou et al proposed a rational design strategy to mitigate fire evacuation issues in high-rise school buildings by integrating machine learning algorithms with simulation software [12]. Zhang Nian et al combined BIM technology with subway station fire evacuations to optimize subway station layouts [13].…”

Section: Introductionmentioning

confidence: 99%

Cellular Automaton Model for Pedestrian Evacuation Considering Impacts of Fire Products

Liu,

Li,

Sun

2023

Fire

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To accurately simulate realistic pedestrian evacuation from a fire, a cellular automaton model of the dynamic changes in pedestrian movement parameters is developed in conjunction with fire dynamics software. The fire dynamics software is used to simulate the spread of smoke within the scene to obtain visibility and CO concentration data within the scene. We imported the smoke data into the cellular automata and adjusted the pedestrian movement speed over time, resulting in simulation data that closely align with reality. The results show that for the single-room scenario, as pedestrian density increased from 0.1 to 0.5 persons per square meter (p/m2), the influence of the percentage of pedestrians familiar with their location on evacuation efficiency decreased from 44.93% to 24.52%. Conversely, in the multi-room scenario, it increased from 23.68% to 38.79%. The proportion of pedestrians less affected by smoke decreases and stabilizes as the CO yield increases. In the single-room scenario, when the CO yield is below 10%, the crowd with a low percentage of pedestrians familiar with the site is more affected by smoke than those with a high percentage. In the multi-room scenario, the victimization rate of the crowd follows an increasing-then-decreasing curve, ultimately stabilizing with changes in CO yield.

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Fire Egress System Optimization of High-Rise Teaching Building Based on Simulation and Machine Learning

Cited by 11 publications

References 62 publications

Evaluation of the Fire Impact of Cellulose-Based Indoor Building Finishing Materials According to Changes in Room Size Aspect Ratio

Evaluation of the Fire Impact of Cellulose-Based Indoor Building Finishing Materials According to Changes in Room Size Aspect Ratio

Combining MAS-GiG Model and Related Problems to Optimization in Emergency Evacuation

Cellular Automaton Model for Pedestrian Evacuation Considering Impacts of Fire Products

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