Influence of Evacuation Walkway Design Parameters on Passenger Evacuation Time along Elevated Rail Transit Lines Using a Multi-Agent Simulation

Influence of Evacuation Walkway Design Parameters on Passenger Evacuation Time along Elevated Rail Transit Lines Using a Multi-Agent Simulation

Passenger evacuation on elevated railway lines has always been an important issue for elevated rail transit safety management, because it is challenging to evacuate passengers efficiently in the event of man-made calamities and natural disasters. Therefore, an evacuation walkway has been designed as...

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Bibliographic Details
Main Authors: Zihua Pan, Qingchao Wei, Olav Torp, Albert Lau
Format: Article
Language:English
Published: MDPI AG 2019-10-01
Series:Sustainability
Subjects:
passenger safety
maglev transit
evacuation time
multi-agent simulation
evacuation walkway
parametric design
Online Access:https://www.mdpi.com/2071-1050/11/21/6049
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spelling doaj-cff4ef9fbdff4d52a065ea946ecdec432020-11-25T02:32:55ZengMDPI AGSustainability2071-10502019-10-011121604910.3390/su11216049su11216049Influence of Evacuation Walkway Design Parameters on Passenger Evacuation Time along Elevated Rail Transit Lines Using a Multi-Agent SimulationZihua Pan0Qingchao Wei1Olav Torp2Albert Lau3School of Civil Engineering, Beijing Jiaotong University, Beijing 100044, ChinaSchool of Civil Engineering, Beijing Jiaotong University, Beijing 100044, ChinaDepartment of Civil and Environmental Engineering, Norwegian University of Science and Technology, 7491 Trondheim, NorwayDepartment of Civil and Environmental Engineering, Norwegian University of Science and Technology, 7491 Trondheim, NorwayPassenger evacuation on elevated railway lines has always been an important issue for elevated rail transit safety management, because it is challenging to evacuate passengers efficiently in the event of man-made calamities and natural disasters. Therefore, an evacuation walkway has been designed as a primary solution to assist passenger evacuation during an emergency on elevated rail transit lines. However, investigations on how evacuation walkway designs influence passenger evacuation time are still limited. This study established two evacuation scenarios of interval evacuation on elevated rail transit lines and put forward a new evacuation time measurement method, based on the concept of ‘evacuation time for passengers leaving the evacuation walkway risk zone’. Then, the evacuation time for 90 combinations of entrance widths and walkway widths was simulated by a multi-agent evacuation simulator, Pathfinder, considering 1032 passengers being evacuated both unidirectionally and bidirectionally. The results show that the entrance width and walkway width have a combined effect on passenger evacuation time. An increase in the walkway width from 0.7 m to 1.5 m may potentially reduce the evacuation time by 54.5% in unidirectional evacuation, and 35.2% in bidirectional evacuation. An increase in the entrance width results in a noticeable evacuation time fluctuation when the walkway width is 0.7 and 0.8 m for both evacuation scenarios, while in a bidirectional evacuation, a noticeable fluctuation also can be observed when the walkway width is within the range of 1.4−1.5 m. According to the study, a potentially good design parameter combination for a newly built evacuation walkway is 1.3 m and 1.4 m for the walkway width and entrance width, respectively. The findings from this study may provide a useful reference in the optimization of the design of evacuation facilities and improvement of passenger evacuation safety in rail transit systems.https://www.mdpi.com/2071-1050/11/21/6049passenger safetymaglev transitevacuation timemulti-agent simulationevacuation walkwayparametric design
collection DOAJ
language English
format Article
sources DOAJ
author Zihua Pan
Qingchao Wei
Olav Torp
Albert Lau
spellingShingle Zihua Pan
Qingchao Wei
Olav Torp
Albert Lau
Influence of Evacuation Walkway Design Parameters on Passenger Evacuation Time along Elevated Rail Transit Lines Using a Multi-Agent Simulation
Sustainability
passenger safety
maglev transit
evacuation time
multi-agent simulation
evacuation walkway
parametric design
author_facet Zihua Pan
Qingchao Wei
Olav Torp
Albert Lau
author_sort Zihua Pan
title Influence of Evacuation Walkway Design Parameters on Passenger Evacuation Time along Elevated Rail Transit Lines Using a Multi-Agent Simulation
title_short Influence of Evacuation Walkway Design Parameters on Passenger Evacuation Time along Elevated Rail Transit Lines Using a Multi-Agent Simulation
title_full Influence of Evacuation Walkway Design Parameters on Passenger Evacuation Time along Elevated Rail Transit Lines Using a Multi-Agent Simulation
title_fullStr Influence of Evacuation Walkway Design Parameters on Passenger Evacuation Time along Elevated Rail Transit Lines Using a Multi-Agent Simulation
title_full_unstemmed Influence of Evacuation Walkway Design Parameters on Passenger Evacuation Time along Elevated Rail Transit Lines Using a Multi-Agent Simulation
title_sort influence of evacuation walkway design parameters on passenger evacuation time along elevated rail transit lines using a multi-agent simulation
publisher MDPI AG
series Sustainability
issn 2071-1050
publishDate 2019-10-01
description Passenger evacuation on elevated railway lines has always been an important issue for elevated rail transit safety management, because it is challenging to evacuate passengers efficiently in the event of man-made calamities and natural disasters. Therefore, an evacuation walkway has been designed as a primary solution to assist passenger evacuation during an emergency on elevated rail transit lines. However, investigations on how evacuation walkway designs influence passenger evacuation time are still limited. This study established two evacuation scenarios of interval evacuation on elevated rail transit lines and put forward a new evacuation time measurement method, based on the concept of ‘evacuation time for passengers leaving the evacuation walkway risk zone’. Then, the evacuation time for 90 combinations of entrance widths and walkway widths was simulated by a multi-agent evacuation simulator, Pathfinder, considering 1032 passengers being evacuated both unidirectionally and bidirectionally. The results show that the entrance width and walkway width have a combined effect on passenger evacuation time. An increase in the walkway width from 0.7 m to 1.5 m may potentially reduce the evacuation time by 54.5% in unidirectional evacuation, and 35.2% in bidirectional evacuation. An increase in the entrance width results in a noticeable evacuation time fluctuation when the walkway width is 0.7 and 0.8 m for both evacuation scenarios, while in a bidirectional evacuation, a noticeable fluctuation also can be observed when the walkway width is within the range of 1.4−1.5 m. According to the study, a potentially good design parameter combination for a newly built evacuation walkway is 1.3 m and 1.4 m for the walkway width and entrance width, respectively. The findings from this study may provide a useful reference in the optimization of the design of evacuation facilities and improvement of passenger evacuation safety in rail transit systems.
topic passenger safety
maglev transit
evacuation time
multi-agent simulation
evacuation walkway
parametric design
url https://www.mdpi.com/2071-1050/11/21/6049
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AT olavtorp influenceofevacuationwalkwaydesignparametersonpassengerevacuationtimealongelevatedrailtransitlinesusingamultiagentsimulation
AT albertlau influenceofevacuationwalkwaydesignparametersonpassengerevacuationtimealongelevatedrailtransitlinesusingamultiagentsimulation
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