21st Congress of International Council of the Aeronautical Sciences, Melbourne, Australia, 13-18 September, 1998
Paper ICAS-98-6.7.5


STRATEGIES FOR MINIMUM DISTANCE IN SIMULATED EVACUATION OF TRANSPORT AIRPLANES

Martinez-Val R., Hedo J. M., Hernandez C.
Madrid Polytechnical University, Spain

Keywords: strategies, minimum distance, simulated evacuation, transport airplanes

The present paper describes the preliminary stages of the development of a new, comprehensive model conceived to simulate the evacuation of transport airplanes in certification studies. Two previous steps were devoted to implementing an efficient procedure to define the whole geometry of the cabin, and setting up an algorithm for assigning seats to available exits. Now, to clarify the role of the cabin arrangement in the evacuation process, the paper addresses the influence of several restrictions on the seat-to-exit assignment algorithm, maintaining a purely geometrical approach for consistency. Four situations are considered: first an assignment method without limitations to search the minimum for the total distance run by all passengers along their escaping paths: second, a protocol that restricts the number of evacuees through each exit according to updated FAR 25 capacity: third, a procedure which tends to the best proportional sharing among exits but obliges to each passenger to egress through the nearest fore or rear exits: and fourth, a scenario which includes both restrictions. The four assignment strategies are applied to turboprops, and narrow body and wide body jets. Seat to exit distance and number of evacuees per exit are the main output variables. The results show the influence of airplane size and the impact of non-symmetries and inappropriate matching between size and longitudinal location of exits.


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