Congestion in Computational Evacuation Modelling

Volker Schneider; Rainer Könnecke

doi:10.17815/CD.2020.102

Congestion in Computational Evacuation Modelling

Authors

Volker Schneider IST GmbH, Frankfurt, Germany
Rainer Könnecke IST GmbH, Frankfurt, Germany

DOI:

https://doi.org/10.17815/CD.2020.102

Keywords:

evacuation, modelling, congestion, egress movement, numerical simulation

Abstract

The time-based analysis of egress scenarios is a long-standing and well-established method to evaluate occupant safety. It is based on the necessary condition that the required egress time is smaller than the available egress time. The former is derived by the application of evacuation models, the latter by calculation of smoke and heat spread in the case of a fire incident. In the calculation of required egress time the time-dependent development of occupant density and consequently the emergence of congestion often play a crucial role. There is a demand to evaluate the development of local occupant density and jam situations independent of the above time-based criterion. This is for example reflected in national guidelines and standards. It is however difficult to obtain general valid evaluation criteria for congestion due to the multitude of influencing parameter and the highly situation-dependent nature of the accompanying boundary conditions. In addition, prediction of localization and duration of congestion may differ from model to model if applied to equal scenarios. Furthermore, close inspection reveals the difficulty to define proper terms for a quantitative definition of congestion. This issue is further analysed in this paper based on three case studies.

References

V. Schneider, “Räumungssimulationen – Genügen Räumungszeiten für eine Bewertung der

Personensicherheit?” in Proceedings of the vfdb Jahresfachtagung 2016, Stuttgart, Mai 2016.

D. Hosser (Ed.), “Guideline Fire Protection Engineering” vfdb Technical Report TR 04-01, November

A. Seyfried, G. Jäger, M. Kitzlinger, B. Schröder, “Normierung von Personenstromsimulationen in DIN

-2” in Proceedings of the Braunschweiger Brandschutztage 2015, September 2015.

J. Wiese, “Personenstromsimulationen nach E DIN 18009-2” in Proceedings of the vfdb

Jahresfachtagung 2018, Duisburg, Mai 2018.

V. Schneider, “Application of the individual-based evacuation model ASERI in designing safety

concepts” in Proceedings of the 2nd Int. Symp. on Human Behaviour in Fire, Boston, March 2001.

Downloads

Published

12.08.2020

How to Cite

Schneider, V., & Könnecke, R. (2020). Congestion in Computational Evacuation Modelling. Collective Dynamics, 5, 471–473. https://doi.org/10.17815/CD.2020.102

Download Citation

Issue

Vol. 5 (2020)

Section

Proceedings of Pedestrian and Evacuation Dynamics 2018

License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Authors contributing to Collective Dynamics agree to publish their articles under the Creative Commons Attribution 4.0 license.

This license allows:

Share — copy and redistribute the material in any medium or format

Adapt — remix, transform, and build upon the material

for any purpose, even commercially.

The licensor cannot revoke these freedoms as long as you follow the license terms.

Authors retain copyright of their work. They are permitted and encouraged to post items submitted to Collective Dynamics on personal or institutional websites and repositories, prior to and after publication (while providing the bibliographic details of that publication).