In fire safety engineering, the performance based design concept relies strongly on the use of computer simulations of fire and evacuation processes. The validation of the simulation tools requires experimental information on the human behaviour during the evacuation situations. In this work, two different types of evacuation situations were studied. The first type was evacuation drills which are normally carried out as part of the safety training of the staff in public buildings and workplaces. The advantage of evacuation drills is that the building (and, if necessary, also the occupants) can be equipped with monitoring devices in order to observe the events during the evacuation. The drawback of the evacuation drills is that the building occupants are normally informed beforehand which may affect the decision making processes. The second type was actual evacuations which occur every now and then. The advantage of actual evacuations is that the decision making processes are likely to be similar to what they would be in case of a real fire. The main techniques used for the observation of evacuation drills were video cameras and Radio Frequency Identification (RFID). Both techniques were used in the evacuation drills in a public library and two office buildings. A large amount of information was obtained and the problems in the application of the observation techniques were identified. In particular, the results show that when the RFID technique is used, the placement of the antennas and tags is very important. With careful placement of the antennas and tags, the reliability of the RFID technique as applied in the current work may be sufficient for scientific purposes. The reliability is poor if the tags are placed under the clothing of other absorbing material. In the observation of an actual evacuation of a large shopping centre, the recordings of the surveillance cameras were used to measure the flow rates of people. The results are very promising and indicate that the collection of surveillance camera recordings from large evacuations should be started. Preface The reported work was conducted in the project " Improvement of the evacuation safety of large buildings by combined simulation of fire and evacuation processes " within the Modelling and Simulation Technology Programme (MASI) of the Finnish Funding Agency for Technology and Innovation (Tekes). The purpose of the experimental work was to provide validation data for the FDS+Evac software developed at VTT. The support from the safety organizations of …
[1]
Kevin B. McGrattan,et al.
Fire dynamics simulator (ver-sion 3) technical reference guide
,
2001
.
[2]
Dirk Helbing,et al.
Simulating dynamical features of escape panic
,
2000,
Nature.
[3]
D. A Purser,et al.
Quantification of behaviour for engineering design standards and escape time calculations
,
2001
.
[4]
Helbing,et al.
Social force model for pedestrian dynamics.
,
1995,
Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[5]
Håkan Frantzich.
Tid för utrymning vid brand
,
2001
.
[6]
Nick Tyler,et al.
An explicit study on walking speeds of pedestrians on stairs
,
2004
.
[7]
Edwin R. Galea,et al.
The Collection Of Pre-Evacuation Times From Evacuation Trials Involving A Hospital Outpatient Area And A University Library Facility
,
2003
.
[8]
T. Vicsek,et al.
Simulation of pedestrian crowds in normal and evacuation situations
,
2002
.